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+[u[37m__<5F>[1;30;47m..<2E>....<2E><><EFBFBD>..<2E><><EFBFBD><EFBFBD>[5C[0;34m. [1;31m1.2 GIG on[11;1H [0;34m.   [1m.  [0;31m<31>۲۲<DBB2><DBB2>[5C[1;34m.[9C[0;36m.[10C[34m.   [37m<37><6D><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>[1;34m.[6C[36m<36>    [0;34m. [1;36m.[31mline  [33mRunning [32mOblivion/2 [33mBB[s
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+[u[0;34m.[7C[1;36m.[12C[0;34m.[15;1H .[15C[1;35m<35><6D><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD> <20>[5C<35>[34m.[35m<35><6D><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD> <20>   <20>    [36m<36><6D><EFBFBD><EFBFBD>  <20><><EFBFBD><EFBFBD>[0;34m. [1;36m<36><6D><EFBFBD><EFBFBD><EFBFBD>[16;1H[5C[34m. [0;34m.    [1;36m.[6C[35m<35>   <20> [34m. [35m<35>  <20> [0;34m. [1;35m<35>  <20>[5C<35>[0;34m.  [s
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+[u[1;35m<35>    [0;34m.[1;35m<35> <20> [34m. [35m<35>  <20><>    [36m<36>   <20> <20> [0;34m. [1;36m<36>[0;34m.    [1;36m<36>  [0;34m.[19;1H  .   [1;36m<36> [0;34m.[7C[1;36m.  [35m<35>  [34m<34>[35m<35>   <20>    <20>    <20><><EFBFBD><EFBFBD><EFBFBD> <20>  <20><> <20>   <20> [34m.  [36m<36><6D><EFBFBD><EFBFBD>  <20><><EFBFBD><EFBFBD>  <20><><EFBFBD><EFBFBD><EFBFBD> .[20;1H [s
+[u[35mOblivion/2 Beta Site[5C[31mWASP HQ    [33mThunderNet NorthEast HUB [34m.  GOP Dist. Site[21;1H    .[8C[36m.  [0;34m.[9C.  [36m.    [34m.[10C.[12C[1;36m<36>    [0;34m.  [1m. [0;34m.[7C.[22;1H[10C.  [1;37mYour Sysop is: [32mCap[s
+[utain Riker[5C[0;36m.    [34m. [1;36mNUP=TRIBBLE    .[5C[0;34m.  [1;36m.[23;1H   .[30C.[24;1H[25;1H[0m[255D
--- a/textfiles.com/bbs/who-me.txt
+++ b/textfiles.com/bbs/who-me.txt
@@ -0,0 +1,167 @@
+
+
+                         SO YOU WANT TO BE A SYSOP
+
+
+                                   by
+
+
+                          Al Gutkin "The Tax Board"
+                                714 974-3730
+
+   PREFACE
+
+      Here I am, 3AM in the morning, can't sleep.  Why? because tomorrow
+   is the big day.  Installation of PCBOARD version 10.  For the other
+   sysops using PCBOARD, it's no biggie, for me, it could mean doomsday,
+   but it won't, cause I'm tough.  Right??????
+
+      Should I worry nooooo.  Then why can't I sleep?  Could it be that
+   I've only been running this board for 2 weeks. Nooooo, I'm tough.
+   After all, "age and treachury can always defeat youth and ability".
+   Why did I do this thing, Bulletin Board?  Who needs it?
+
+   I WAS A NEW USER, ONCE
+
+      Yep, thats the truth.  But, I won't tell you when.  Actually, it
+   it was 7 years ago, that I touched my first computer.  A Radio Shack
+   model 1.  You know the one that had two floppies that couldn't remember
+   that they were there, even the techs at Radio Shack didn't know they
+   were there.  I found that out when I went back.  They didn't even know
+   what a utility program was then. I ended up giving to charity and taking
+   a deduction for $ 5,000.  I bought an Alpha Micro, used it for six years
+   in my business.  I felt on top of the world, I learned how to change the
+   menus myself.  Dazzled my clients, dazzled my secretary, thank god I
+   didn't know any modern day IBM type programmers back then, I couldn't
+   take the laughing and funny faces that they would make.  Boy, have I
+   come a long way.
+
+      The biggest gain of knowledge came in the last year, when I was
+   introduced to DOS.  YEH, I never met dos before.  After DOS, came my
+   introduction to Mr. Modem.  Thats where the trouble started, and I
+   introduced myself back to the real computer world.  My god, there's
+   people out there that like to talk computers, not only like to talk
+   computers, but actually develop programs that other people can try for
+   free.  WOW, I never new this existed.  Hey!!, come look at my computer,
+   I'm talking to another computer.  Look at the color menus and graphics,
+   how did they do that?  Yep, my exact words, "trust me".
+
+ HERE COMES THE SYSOP.  (What is a SYSOP?)
+
+       We all know what a Sysop is, it's probably in the encyclopedia,
+   "ancient monster, that eats computers and has ultimate power over
+    modem users"  That sounds like the definition.  Well, I know that
+    I don't have the personality to become a Sysop.  I'm too friendly,
+    outgoing, and busy to become a Sysop.  Besides, who needs that kind
+    of power?  In addition, my personality is in voice, not written
+    communication, no-one can see my face through a computer.  All I have
+    is my speaking personality, developed over the years to overcome my
+    slow loss of hair.
+
+ GUESS WHAT, I'M GONNA BE A SYSOP.
+
+       Yea, I won't do it for real.  I'll just set up two computers between
+    my office and home and transfer files.  That way I can work at home and
+    be with my family more.  When I mentioned that to my wife, I had to put
+    my hand over my nose so she wouldn't see it getting bigger with every
+    word that I said.
+
+       In order to start a bulletin board, even if it's for private use,
+    you need software.  Well, I remember seeing some of that on Free Bytes.
+    Next step, call Free Bytes and take some software.  No couldn't do it
+    there, I only was allowed 35 min per day.  The Weasel Board, yea, I got
+    alot of time there. Poor Weasel Board, I tied up the phone for hours
+    trying to get bulletin board software.  I kept getting waylayed by the
+    ski reports.  Finally got the software, but never used it, got involved
+    with "A LADIES ROOM" instead.  You know, the FIDO Ladies Room.
+    I could have also been arresed as a rapist.  I just looked at the stats.
+    for Free Bytes.  50 down, 1 up.  I'm ashamed.  I'll just give em all
+    back.  Oh, he only has 300,000k of space left.
+
+       Darlene was real nice, she gave me some tips, mentioned RBase 4000,
+    for the text part, then we made a deal, I'm the new Tax person.  Users
+    will ask me questions and I'll call the board with an answer.  Lady Bug
+    was my first and last customer.  A LADIES ROOM HAD A DISK CRASH.
+
+       Meanwhile, I managed to get PCBOARD from Kenny and the CROW'S NEST.
+    I de-arched it, set it up, by God, it worked.  The docs, written by
+    Fred Clark and Associates, said in big letters. THIS IS NOT FOR THE
+    NOVICE SYSOP.  WE DON'T HAVE TIME TO ANSWER BABY QUESTIONS.  Of course
+    I added some of my own words to that, the docs weren't that harsh.
+    Well, I now had my private bulletin board.  I mailed Fred some $$$$
+    which I usually do when I get good software and bango, I'm a full
+    fledged SYSOP.  Of course, I was the only user.  When the Crows Nest
+    or the others were busy, I just called myself.  Weird Huh?
+
+  GOING PUBLIC
+
+       I had the board set up and operational so going public wasn't that
+    hard.  However, before I could get my new tel. number set up and menus
+    changed I registered with Fred's organization.  My first great experience
+    came when Fred called the Board, to verify it's existance, and reached
+    the board that was set up in my office.  Guess what?  I still was using
+    Fred's Salt Air Graphics.  Would have liked to see the look on Fred's
+    face when my modem answered and Fred's own introduction came up.  Bet
+    Fred thought he was loosing his mind, and calling himself.
+
+       Underdog in the state of WASH. helped.  Sal the dog, enabled me to
+    compile some of the best business software in the West.  The only
+    difference is with me, its free.  Don't knock Sal, he spends all his
+    free time scouring the nation for the best. His phone bill must look
+    look like AT&T's annual report.
+
+  THE GRAND OPENING - NEWYEARS DAY
+
+       NO ONE CALLED.  Of course not, who had the number?  Oh, heck, how
+    do you market a bulletin board?  Put an add in the paper?  Got a great
+    idea @@@@@.  I called the local BIG TIME SYSOPS and left comments.  Oh
+    what a dummy, I was.  Yea, I got calls.  Don Phelps of FREE BYTES was
+    the first.  He left me a nice message of encouragement and left just as
+    fast as he came.  Well thanks to the generous help of the local experienced
+    sysops I finally got some users.  No-One stayed for more than 3 Min.
+    Why, because I had a boring board.  Didn't know how to extend my
+    outgoing personality through the computer.  What to do? Failure Setting
+    In.
+
+  RECOVERY
+
+        By chance, I called David Dennen, LaVern and PC STREET.  He's Mr.
+    personality, and I won't tell you how old.  Dave intercepted the call
+    and heard my woes.  Guess he saw the nice comment I left.  Anyhow, now
+    my board "THE TAX BOARD" has gone through some radical changes.
+    We have great bulletin and conference areas.  Fun and knowledge for all.
+    Still give tax and business advice, but we also cater to friendly
+    people.  We, are "USER FRIENDLY".  Need help, we're still here, getting
+    bigger every day, but no too big to loose the personal contact with you.
+
+
+
+Hit [ENTER] to continue
+
+ 
+ 
+ 
+
+
+X-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-X
+
+ Another file downloaded from:                               NIRVANAnet(tm)
+
+ & the Temple of the Screaming Electron   Jeff Hunter          510-935-5845
+ Salted Slug Systems                      Strange              408-454-9368
+ Burn This Flag                           Zardoz               408-363-9766
+ realitycheck                             Poindexter Fortran   415-567-7043
+ Lies Unlimited                           Mick Freen           415-583-4102
+ Tomorrow's 0rder of Magnitude            Finger_Man           408-961-9315
+ My Dog Bit Jesus                         Suzanne D'Fault      510-658-8078
+
+   Specializing in conversations, obscure information, high explosives,
+       arcane knowledge, political extremism, diversive sexuality,
+       insane speculation, and wild rumours. ALL-TEXT BBS SYSTEMS.
+
+  Full access for first-time callers.  We don't want to know who you are,
+   where you live, or what your phone number is. We are not Big Brother.
+
+                          "Raw Data for Raw Nerves"
+
+X-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-X
--- a/textfiles.com/bbs/winfrend.pro
+++ b/textfiles.com/bbs/winfrend.pro
@@ -0,0 +1,107 @@
+Computer Etiquette, By Mel North
+________________________________
+
+  The following are a few points of general BBS etiquette.  If you wish to
+maintain your welcome on whatever system you happen to call, it would be to your
+advantage to observe these few rules.
+
+  1.  Don't habitually hang up on a system.  Every Sysop is aware that
+accidental disconnections happen once in a while but we do tend to get annoyed
+with people who hang up every single time they call because they are either too
+lazy to terminate properly or they labor under the mistaken assumption that the
+10 seconds they save online is going to significantly alter their phone bill.
+"Call Waiting" is not an acceptable excuse for long.  If you have it and intend
+to use the line to call BBS systems, you should either have it disconnected or
+find some other way to circumvent it.
+
+  2.  Don't do dumb things like leave yourself a message that says "Just testing
+to see if this thing works".  Where do you think all those other messages came
+from if it didn't work?  Also, don't leave whiney messages that say "Please
+leave me a message".  If ever there was a person to ignore, it's the one who
+begs someone to leave him a message.  If you want to get messages, start by
+reading the ones that are already online and getting involved in the
+conversations that exist.
+
+  3.  Don't use the local equivalent of a chat command unless you really have
+some clear cut notion of what you want to say and why.	Almost any Sysop is more
+than happy to answer questions or offer help concerning his system.
+Unfortunately, because about 85% of the people who call want to chat and about
+99% of those people have absolutely nothing to say besides "How old are you?" or
+something equally irrelevent, fewer Sysops even bother answering their pagers
+every day.
+
+  4.  When you are offered a place to leave comments when exiting a system,
+don't try to use this area to ask the Sysop questions.  It is very rude to the
+other callers to expect the Sysop to carry on a half visible conversation with
+someone.  If you have a question or statement to make and expect the Sysop to
+respond to it, it should always be made in the section where all the other
+messages are kept.  This allows the Sysop to help many people with the same
+problem with the least amount of effort on his part.
+
+  5.  Before you log on with your favorite psuedonym, make sure that handles are
+allowed.  Most Sysops don't want people using handles on the system.  There is
+not enough room for them, they get silly games of one-upmanship started, it is
+much nicer to deal with a person on a personal basis, and last but not least,
+everyone should be willing to take full responsibility for his actions or
+comments instead of slinging mud from behind a phoney name.
+
+  Also when signing on, why not sign on just like you would introduce yourself
+in your own society?  How many of you usually introduce yourselves as Joe W
+Smutz the 3rd or 4th?
+
+  6.  Take the time to log on properly.  There is no such place as RIV, HB, ANA
+or any of a thousand other abbreviations people use instead of their proper
+city.  You may think that everyone knows what RIV is supposed to mean, but every
+BBS has people calling from all around the country and I assure you that someone
+from Podunk, Iowa has no idea what you're talking about.
+
+  7.  Don't go out of your way to make rude observations like "Gee, this system
+is slow".  Every BBS is a tradeoff of features.  You can generally assume that
+if someone is running a particular brand of software, that he is either happy
+with it or he'll decide to find another system he likes better.  It does nobody
+any good when you make comments about something that you perceive to be a flaw
+when it is running the way the Sysop wants it to.  Constructive criticism is
+somewhat more welcome.	If you have an alternative method that seems to make
+good sense then run it up the flagpole.
+
+  8.  When leaving messages, stop and ask yourself whether it is necessary to
+make it private.  Unless there is some particular reason that everyone shouldn't
+know what you're saying, don't make it private.  We don't call them PUBLIC
+bulletin boards for nothing, folks.  It's very irritating to other callers when
+there are huge blank spots in the messages that they can't read and it stifles
+interaction between callers.
+
+  9.  If your favorite BBS has a time limit, observe it.  If it doesn't, set a
+limit for yourself and abide by it instead.  Don't tie up a system
+unnecessarily.
+
+  10.  Have the common courtesy to pay attention to what passes in front of your
+face.  When a BBS displays your name and asks "Is this you?", don't say yes when
+you can see perfectly well that it is mispelled.  Also, don't start asking
+questions about simple operation of a system until you have thouroghly read all
+of the instructions that are available to you.	I assure you that it isn't any
+fun to answer a question for the thousandth time when the answer is prominently
+displayed in the system bulletins or instructions.  Use some common sense when
+you ask your questions.  The person who said "There's no such thing as a stupid
+question" obviously never operated a BBS.
+
+  11.  Don't be personally abusive.  It doesn't matter whether you like a Sysop
+or think he's a jerk.  The fact remains that he has a large investment in making
+his computer available, usually out of the goodness of his heart.  If you don't
+like a Sysop or his system, just remember that you can change the channel any
+time you want.	Besides, whether you are aware of it or not, if you make
+yourself enough of an annoyance to any Sysop, he can take the time to trace you
+down and make your life, or that of your parents, miserable.
+
+  12.  Keep firmly in mind that you are a guest on any BBS you happen to call.
+Don't think of logging on as one of your basic human rights.  Every person that
+has ever put a computer system online for the use of other people has spent a
+lot of time and money to do so.  While he doesn't expect nonstop pats on the
+back, it seems reasonable that he should at least be able to expect fair
+treatment from his callers.  This includes following any of the rules for system
+use he has laid out without grumping about it.	Every Sysop has his own idea of
+how he wants his system to be run.  It is really none of your business why he
+wants to run it the way he does.  Your business is to either abide by what he
+says, or call some other BBS where you feel that you can obey the rules.
+
+
--- a/textfiles.com/bbs/works.phk
+++ b/textfiles.com/bbs/works.phk
@@ -0,0 +1,175 @@
+=================================================
+AN EXTREMELY IMPORTANT MESSAGE TO THE WORKS USERS
+=================================================
+
+Hello.
+
+This is a message from Jason Scott, original SysOp 
+of The Works from 1986-1988, its genesis years. I 
+started The Works when I was 16, and ran it until I 
+went to college. Some time afterwards, an extremely
+young fellow named Dave Ferret asked me if he could 
+try setting up the BBS at his house, and after a 
+little less than a year, David got his parents to pay
+for a third line into the house and he put up my BBS.
+
+When Dave first got his hands on The Works, it was 
+extremely funky and weird. I had written the software
+in QuickBasic, and called it Ferret BBS, after my pet
+ferret which was forced to live in the same room as the 
+computer and constantly ringing line (I never shut it 
+off). The reason I was running this software was to 
+emulate on the PC what was one of the coolest pieces 
+of software on the Apple ][, that is, Waffle BBS v1.62. 
+I had basically tried to emulate a lot of what I found 
+wonderful about that software, and put some time into 
+my own little mods.
+
+Dave suffered with this software for some months, and 
+then the Waffle folks switched their software over to 
+the PC, and I urged Dave to switch to the original bbs 
+code which I had been trying to emulate anyway. 
+
+It was Dave who ran the Works from 1989 to the present. 
+That's 6 years, three times longer than I ever ran it. 
+It was under Dave who got us Internet E-Mail, Dave who
+supplied the electricity and hard drive space for the 
+system, and Dave who was the system administrator for 
+the Works' growth into a CdC system and world-famous BBS. 
+
+The Works grew here in Lexington into a place where the 
+users would have Works Get-Togethers, in pizza places, 
+the Au Bon Pain, and wherever else we thought would be neat.
+
+Along the way, we also gained some of the more effective 
+administrators that any BBS would offer: Iskra and Veggie 
+were the two that I shared time with and they're still 
+among my best friends in the world. The amount of work 
+these two guys put in to make the Works into the system it 
+has become can't be discounted in the least. They knew what
+people wanted, and knew what the system needed, and put in
+the hours and hours to make it work. Their influence is 
+everywhere in this system.
+
+This brings us to the present.
+
+Now, it's 1995, the Works is nearly 10 years old and Dave 
+has done some soul-searching and decided he can no longer
+give the system the attention he thinks it deserves. So, 
+he asked me to take the Works back, to put it up and run 
+it again like I did 7 years ago. I accepted, thinking it 
+wouldn't take that much of my time anyway, so it wouldn't 
+be a problem. Besides, I probably had an extra phone line
+or two, and it wouldn't be a problem.
+
+I have to the conclusion that I was wrong.
+
+A little technical background: My theory was that I have 
+a Macintosh SE that I have SoftPC running on, and by 
+running Waffle through the SoftPC, I could run the Works
+effectively. This Macintosh has been running for three weeks 
+now and I'd say it functions like it's supposed to about
+1 out of every 3 days, and even then for a few hours
+until I get over to the computer office I own to reset it.
+I had an extra phone line on my hunt group and thought that
+I could just stick a copy of the system on there and leave 
+it and everything would be just great. Again, this theory 
+is wrong.
+
+I've also done some personal soul-searching and I have 
+come to the conclusion that the Works in its current 
+incarnation should die. As much as we'd like to extend the
+Works, like closing your eyes and hoping that your really
+good dream will go on, I don't personally think that could
+happen. I think that the two solutions that Dave presented,
+the first of me taking it over, and the second, of the
+l0pht taking it over, would produce a cheap, bastardized
+version of the Works that the administrators would consider
+an afterthought and not a primary concern. This isn't 
+criticizing anyone, this is simply stating that trying to
+run a BBS is either a time-consuming situation, or it becomes
+like the summer cabin in the woods that has all sorts of
+repairs to do but you put them off until next summer to fix them.
+
+But because the Works has always been a product of love, and
+a product that comes from my heart for reasons I won't go 
+into here, I am offering at least a partial solution. Hear 
+me out and don't press the Q key.
+
+Some of you know and some of you don't care that I already
+run a BBS right now. This BBS is called "COWZ", or COWZ 
+Technologies or cow.net depending on your mood. This year,
+I decided to get into the Internet Access Provider business
+and have stuck something on the order of $10,000 into this
+venture. It takes the majority of my free time to make it 
+a place worth coming to. I care very much for it, and I 
+think it has the potential to become a world-class venture.
+I am connected to the Internet via a direct 24-hour 56kb
+connection, and am cow.net and telnettable from the world
+at large.
+
+I propose to put The Works into COWZ.
+
+The way that I would propose this is to put the Textfiles
+that made the Works so popular in the first place into my
+500-meg file system, and create message boards that Works 
+Users would want into the message bases, and generally do
+what I can to make the Works Community welcome. 
+
+There are two facets to this offer that I think should 
+be mentioned.
+
+The first is that it will cost money to use COWZ. Right now,
+I'm selling my services, which include direct telnet and 
+usenet newsgroups, along with FTP, WWW via the "Lynx" 
+text-only browser, and of course the BBS for $75 a 
+year. I think this is a really good price and I also 
+think it's a bargain. HOWEVER, I also think that telling
+Works Users that their price for using the bases and files
+of the Works has gone from $0 to $75 a year would be
+beyond henious, so I offer Works Users the price of $25 a year. 
+
+To the chorus of "Fuck You"s, I would like to point out 
+that these Works Accounts would be full-featured COWZ
+Accounts, and would contain all the services that other
+users have, for 1/3rd the price. The way that you would
+get this extremely special price would be to mention the 
+Works in a letter to my account: system@cow.net. 
+Arrangements can then be made.
+
+COWZ is running on several sun workstations, with 7
+incoming phone lines and uses Waffle UNIX Software. 
+It is functionally similar to the Works you have grown
+used to. The main difference is that you would have 
+more you could do at the prompt.
+
+The other facet worth mentioning is that Dave doesn't know
+this offer I've made. He might not approve, and might 
+decide to do something else with the Works than have it
+die and be sucked up into COWZ. Dave is more than within
+his rights to do so; he really does own the name "The Works" 
+as far as I'm concerned. I was 17 when I last ran the 
+Works; Dave ran it all through his teenage years and now
+into his 20's. Dave also runs works.com and would be
+more than free to give that domain to someone else, even
+another BBS. Dave would have my full blessing to do so, 
+but I hope that he'll see what I'm trying to do and join me.
+
+What I hope to be proposing is a new era in the Works for
+the users who grew up with the love of information 
+and interaction that the system stood for, an era where
+the Works users have Internet on top and access to the
+world from the same sneering citadel of "We're gonna give
+it our best shot to make a difference and put up every 
+textfile known to man" that the Works always spoke from.
+
+      The COWZ Technologies BBS is available 
+      by calling 1-617-COW-TOWN or 617-269-8696,
+      or by telnetting to cow.net from your UNIX
+      prompt via internet. I am on COWZ as 
+      system@cow.net or root@cow.net, and will 
+      gladly answer all queries and questions that 
+      you would care to throw my way.
+
+                             With much love,
+                             Jason Scott
--- a/textfiles.com/bbs/workslogin.txt
+++ b/textfiles.com/bbs/workslogin.txt
@@ -0,0 +1,37 @@
+ Cambridge, Summer.
+
+ City of socialists, neighborhood of crime and credulity, den of
+ inequities both real and imagined. The darkness that seeps over
+ the town is marred only by the moon rising over the lone spire of
+ the town hall, lost and unwatched. Only the rushing sound of the
+ distant Turnpike and the patter of hurried footsteps echo down an
+ otherwise deserted Massachusetts Avenue...
+
+ ..but faintly, on the edge of hearing, a knocking sound can be
+ heard. At first a mere tap, but soon a dull, rhythmic thud that rises
+ from the ground. The thud keeps pace with an unknown heartbeat, and
+ increases in volume until it seems to be an ancient drum warning of
+ a coming danger.
+
+ With each thud, a manhole cover in the middle of Central Square shakes,
+ jumps,quivers, but falls back into place. There is silence. Suddenly,
+ the manhole cover jumps twenty feet into the air and lands with a
+ fearsome clank near the entrance to the Golden Donut restaurant,
+ almost crashing into the front window. It shudders back and forth
+ on the bricks, then rests.
+[more]
+
+
+ A figure, no, less a figure than a huddle, rises out of the manhole,
+ gasping, clawing, straining to crawl out of the maw. With great effort,
+ it slides out onto the smooth pavement, and rests.
+
+ Presently, it stands up. First haltingly, then firm. Even through all
+ the muck and the leaves, it is recognizable. It is.... The Works.
+
+ The Works looks down Massachusetts Avenue, past the closed shops and
+ the low buildings of Cambridge, to the Skyline of Boston, an uneven
+ line of light in the darkness of the horizon.
+
+ "You will be mine again," says the Works, and then it limps off into
+ the shadows.
--- a/textfiles.com/bbs/ziphack.txt
+++ b/textfiles.com/bbs/ziphack.txt
@@ -0,0 +1,55 @@
+Regarding Hacked versions of PKware products.
+               and
+Regarding no new versions of PKware products from Pkware.
+               by Bob Mahoney, Exec-PC BBS                        12/11/92
+
+More and more hacked versions of the PKware zip and unzip programs are
+appearing on bulletin boards.  This is a sign of the frustration we are
+all feeling with zip looking as if it is dead in the water.  We are 
+starting to wonder if perhaps a hacked version of zip and unzip might
+be better than the unapproved alpha versions PKware has allowed to float
+around for so long.  To explain:
+
+PKware has set a new record in the computer industry.  They have had an
+alpha test version of their zip and unzip software circulating on bulletin
+boards for more than a year.  Typically, a company will distribute an alpha
+version to selected testers, then within a reasonable amount of time will
+distribute a beta version, then will soon release a real version after that.
+
+In late 1991 PKware distributed their PKZ193A.EXE, "A" for alpha, zip software
+and it immediately appeared on every BBS in the country.  Fine, alpha versions
+are soon replaced by beta, then final versions.  No problem.  Well, here
+we are, just about into 1993.  The old alpha version is still causing 
+frustration and confusion on most bulletin boards.
+ 
+To quote a typical message received from an innocent BBS user:
+ 
+"Why does this BBS have so many files that don't work?  When I unzip the file
+PKUNZIP tells me "I don't know how to handle this file".  You should check
+your files more carefully.  Many of my friends have the same problem."
+
+Recently, the messages have become more profane, with "pi????" and "f??? you"
+sprinkled in some of them, all complaining about files that do not work.
+What is the problem?  The problem is PKware sitting on an alpha version and
+seemming to do nothing about it.
+
+I propose the following:  We do some research to see what other compression
+software might be more appropriate for use on BBS systems, and discuss
+converting all collections from zip to whatever compression techniques looks
+like a logical successor to the confused zip situation.  
+ 
+After all, if PKware ever attempts to release another version in the future,
+we can probably look forward to at least another year of version confusion,
+profane messages, extremely frustrated new users, and 30 or 40 messages
+per week from people confused about the lack of any zip standards.  For the
+4 or 5 years we have been using zip format, one full year has been under
+non-standard formats with an alpha version floating around.  I have not seen
+the same predicament with other compression standards.
+ 
+I ask for your input concerning conversion to other standards.
+
+I encourage you to distribute this file to other online systems to see
+if there is a consensus about this.
+Bob Mahoney
+
+
--- a/textfiles.com/computers.1
+++ b/textfiles.com/computers.1
@@ -0,0 +1,465 @@
+<HTML>
+<TITLE>T E X T F I L E S</TITLE>
+<BODY BGCOLOR="#000000" TEXT="#00FF00" LINK="#00FF00" ALINK="#00AA00" VLINK="#00AA00">
+<H1>General Computer Textfiles</H1>
+<P>
+Your one-stop shop for all files of a "computery" nature, that cover how to
+rebuild a piece of computer hardware to do something it was 
+never meant to do, or to see someone go really deeply into a computing
+subject that would cause most people to yawn and look for the snack table.
+Since BBSes were on computers, it was natural for people who used BBSes
+to focus on all aspects of these wonderful machines.  The evidence of
+their interest and their experimentation resides below.
+<P>
+Of course, nearly ALL textfiles are computer-related in some fashion, and
+some subjects might fit here but fit even better in another section. For
+example, you should most definitely check out the
+<A HREF="programming.1">programming</A>
+and <A HREF="apple.1">apple</A> sections as well, as you might not agree with
+what I decided should go where.
+<P>
+<TABLE WIDTH=100%>
+<TD BGCOLOR=#00FF00><FONT COLOR=#000000><B>Filename</B><BR></FONT></TD>
+<TD BGCOLOR=#00DD00><FONT COLOR=#000000><B>Size</B><BR></FONT></TD>
+<TD BGCOLOR=#00AA00><FONT COLOR=#000000><B>Description of the Textfile</B><BR></TD></TR>
+
+<tab indent=60 id=T><br>
+<TR VALIGN=TOP><TD VALIGN=TOP><B><A HREF="computers/ASTRESEARCH.1">ASTRESEARCH</A></B><TAB TO=T><TD WIDTH=20></TD><TD><B>Technical Bulletins from AST Research</B></TD></TR>
+<TR VALIGN=TOP><TD VALIGN=TOP><B><A HREF="computers/CYBERSPACE.1">CYBERSPACE</A></B><TAB TO=T><TD WIDTH=20></TD><TD><B>Files Concering the Idea of "Cyberspace"</B></TD></TR>
+<TR VALIGN=TOP><TD VALIGN=TOP><B><A HREF="computers/DOCUMENTATION.1">DOCUMENTATION</A></B><TAB TO=T><TD WIDTH=20></TD><TD><B>Documentation Files and Instruction Sets</B></TD></TR>
+<TR VALIGN=TOP><TD VALIGN=TOP><B><A HREF="computers/HARDDRIVES.1">HARDDRIVES</A></B><TAB TO=T><TD WIDTH=20></TD><TD><B>Hard Drive Technical Information</B></TD></TR>
+<TR VALIGN=TOP><TD VALIGN=TOP><B><A HREF="computers/PRESSRELEASE.1">PRESSRELEASE</A></B><TAB TO=T><TD WIDTH=20></TD><TD><B>Press Releases by Companies Long Forgotten</B></TD></TR>
+<TR><TD>&nbsp;</TD></TR>
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/1003v-mm">1003v-mm</A>  <tab to=T><TD> 4347<BR><TD> Information on the Western Digital 1000v-MMx Series
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/1006v-sr">1006v-sr</A>  <tab to=T><TD> 4347<BR><TD> Information on the Western Digital WD1006V-SR1 and 2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/1080mods">1080mods</A>  <tab to=T><TD> 3610<BR><TD> Amiga 1080 Monitor Modifications
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/1105.txt">1105.txt</A>  <tab to=T><TD> 2468<BR><TD> How to Boot with DR DOS (October 31, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/144_ctrl.txt">144_ctrl.txt</A>  <tab to=T><TD> 6819<BR><TD> Zaphod Beeblebrox' Notes on using PC 1.44mb 3.5" Drives with Atari STs and STEs
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/144disk.txt">144disk.txt</A>  <tab to=T><TD> 6178<BR><TD> Edited Textfile about 3.5" Diskette Formats, from Kevin Maier of IBM Corporation (May 10, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/144meg.txt">144meg.txt</A>  <tab to=T><TD> 13288<BR><TD> How to Upgrade your Atari ST Floppies to 1.44mb 3.5" Drives, by Robert B. Pegram
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/1541.tri">1541.tri</A>  <tab to=T><TD> 12170<BR><TD> Two Rarely Used 1541 Disk Drive Functions, by Peter Weighill (September 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/154xb">154xb</A>  <tab to=T><TD> 8693<BR><TD> JUMPERS: Adaptec AHA-1540B
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/16550a_n">16550a_n</A>  <tab to=T><TD> 5842<BR><TD> Information on the 16550a UART
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/1991-12">1991-12</A>  <tab to=T><TD> 42275<BR><TD> What is ISDN Good for? By Mitch Kapor of the EFF (December 10, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/1pt4mb.inf">1pt4mb.inf</A>  <tab to=T><TD> 5035<BR><TD> Notes on the Use of 1.4mb Drives in AT Compatibles
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/2310-12">2310-12</A>  <tab to=T><TD> 4347<BR><TD> JUMPERS: Adaptec ACB-2310,12
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/2496">2496</A>  <tab to=T><TD> 4891<BR><TD> How to upgrade your US Robotics 2400 Baud Modem into a 9600 Baud Modem by Death Bringer 06/07/1991
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/24to96x.txt">24to96x.txt</A>  <tab to=T><TD> 7424<BR><TD> Complaint about a file purporting to convert a 2400bd Modem to 9600 baud; claims it's a Hoax
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/25mgupgd.txt">25mgupgd.txt</A>  <tab to=T><TD> 13929<BR><TD> A 2.5 Meg Socketed RAM Upgrade for the 1040ST by Barry Orlando (Decmber 28, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/286">286</A>  <tab to=T><TD> 6326<BR><TD> A Review of Compaq DeskPro 286 by Bob McDuffee
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/286-2">286-2</A>  <tab to=T><TD> 2828<BR><TD> Part 2 of the Review of the Compaq DeskPro 286 by Bob McDuffee
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/28_8khst.txt">28_8khst.txt</A>  <tab to=T><TD> 9335<BR><TD> US Robotics Announces the Last Modem You'll Ever Buy (Press Release, June 8, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/2ndrs232.txt">2ndrs232.txt</A>  <tab to=T><TD> 7725<BR><TD> How to Get a Second RS232 Port For Your Atari (July 15, 1987)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/2w93358a.txt">2w93358a.txt</A>  <tab to=T><TD> 4445<BR><TD> Guide to PGP Operations in a Secure Environment
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/386486.txt">386486.txt</A>  <tab to=T><TD> 5589<BR><TD> A Low Cost Performance Boost for Your 386 PC
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/400top.txt">400top.txt</A>  <tab to=T><TD> 12870<BR><TD> The SatisFAXtion Modem/400: Solutions to Common Problems
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/401bugs.txt">401bugs.txt</A>  <tab to=T><TD> 7387<BR><TD> Two Suspected Bugs in MS-DOS v4.01 by William S. Ataras III (June 5, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/450baud.txt">450baud.txt</A>  <tab to=T><TD> 7296<BR><TD> On the Topic of 450 Baud, by Scott Loftesness, May 28, 1983
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/486vs040.txt">486vs040.txt</A>  <tab to=T><TD> 15981<BR><TD> CISC: The Intel 80486 vs. The Motorola MC68040 from Advanced Microprocessors by Daniel Tabak (Scribed by Mike, July 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/4chan8bi.asc">4chan8bi.asc</A>  <tab to=T><TD> 8688<BR><TD> Plans for a 4-Channel 8-Bit Analog-to-Digital Converter for PC from Francis J. Deck
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/4dostips.txt">4dostips.txt</A>  <tab to=T><TD> 3297<BR><TD> 4DOS Specific Information and Tips
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/500hacks.txt">500hacks.txt</A>  <tab to=T><TD> 46075<BR><TD> A Do It Yourself Guide to Computer Repair and Modification of the PC and Amiga 500 from Lewin Edwards
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/500mm.txt">500mm.txt</A>  <tab to=T><TD> 6983<BR><TD> Disk Storage Reaches Molecular Level, from Video Computing November/December 1988 Issue
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/68040.txt">68040.txt</A>  <tab to=T><TD> 12653<BR><TD> The New CISC Micorporcessor offers RISC Performance
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/86bugs.lst">86bugs.lst</A>  <tab to=T><TD> 13776<BR><TD> Harald Feldmann's 86BUGS List (November 3, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/87.set">87.set</A>  <tab to=T><TD> 15313<BR><TD> Information about the 8087 and 287 Coprocessors
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/8bitcomp.txt">8bitcomp.txt</A>  <tab to=T><TD> 24445<BR><TD> The Designing and Building of an 8-Bit Computer: A Personal Story, by Mark Balch (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/8chan12b.asc">8chan12b.asc</A>  <tab to=T><TD> 6047<BR><TD> Chap 12-Bit ADC for IBM PC by Francis J. Deck
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/8meg_exp.txt">8meg_exp.txt</A>  <tab to=T><TD> 8158<BR><TD> An Amiga 8meg RAM Expander, by John Kamchen (1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/9600.inf">9600.inf</A>  <tab to=T><TD> 19072<BR><TD> The Long, Painful Road to a 9600 Baud Standard
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/9600data.txt">9600data.txt</A>  <tab to=T><TD> 30848<BR><TD> A Comparison of High Speed Modems Compatibility/Features/Differences/Prices (March 3, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/9600info.inf">9600info.inf</A>  <tab to=T><TD> 19119<BR><TD> 9600 Baud Modems: An Overview
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/a4000">a4000</A>  <tab to=T><TD> 6725<BR><TD> A Scared Amiga Beta Tester lets the Cat out of the Bag about the Amiga 4000
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/a5000.txt">a5000.txt</A>  <tab to=T><TD> 11864<BR><TD> The First Reports of the Amiga 5000
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/a500_1mb">a500_1mb</A>  <tab to=T><TD> 8312<BR><TD> Directions on How to Convert your Amiga 501 Cartridge to Chip RAM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/aboutems.txt">aboutems.txt</A>  <tab to=T><TD> 27370<BR><TD> Memory Expansion in80x86-Based Computers Under MS-DOS by John Wilson of Hyperdyne
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/abrash.lst">abrash.lst</A>  <tab to=T><TD> 20429<BR><TD> Roll Your Own Minilanguages with Mini-Interpreters, by Michael Abrash and Dan Illowsky (1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/accel.txt">accel.txt</A>  <tab to=T><TD> 3948<BR><TD> An Amiga 500 Processor Accellerator Project, by Leslie Ayling
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/act-13.txt">act-13.txt</A>  <tab to=T><TD> 63155<BR><TD> The Amateur Crackist Tutorial Version 1.3 by Specular Vision
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/adapter.txt">adapter.txt</A>  <tab to=T><TD> 18556<BR><TD> How to Connect a PC to a VideoCrypt Decoder, by Markus Kuhn (June 19, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/add5.25drive.txt">add5.25drive.txt</A>  <tab to=T><TD> 3576<BR><TD> How to Hook a 5.25" Drive to your Amiga, by Les Ayling
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/add512kb">add512kb</A>  <tab to=T><TD> 2438<BR><TD> How to install a 1mb Chip into an Amiga 500 on the Mothercard
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/addcard.txt">addcard.txt</A>  <tab to=T><TD> 2291<BR><TD> Hack to Allow an Amiga 1000 or Amiga 500 to expand its 86-pin slot to 100pin
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/addictio.txt">addictio.txt</A>  <tab to=T><TD> 7589<BR><TD> The Tragedy of Online Addiction, by Steve King
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/addrive.txt">addrive.txt</A>  <tab to=T><TD> 8357<BR><TD> Generic 3.5 Inch Double Sided Disk Drive for the Atari 520/1040 Series
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/aids.txt">aids.txt</A>  <tab to=T><TD> 1571<BR><TD> The AIDS Trojan Horse Program Marches On (March 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/all-help.tec">all-help.tec</A>  <tab to=T><TD> 36845<BR><TD> All the Help Scripts from the DESQview 2.26, QEMM 5.0, Manifest 1.0, QRAM 1.0, etc.
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/alsnutt1">alsnutt1</A>  <tab to=T><TD> 2182<BR><TD> Big Al's Norton Utilities Tech Tips Volume 1 Number 1 by Al Hansen (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/alt-bin.txt">alt-bin.txt</A>  <tab to=T><TD> 49521<BR><TD> Notes on Decoduing UUENCODEd .GIF Files
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ami-chts.txt">ami-chts.txt</A>  <tab to=T><TD> 182700<BR><TD> Large Collection of Amiga Video Game Cheats
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ami-init.txt">ami-init.txt</A>  <tab to=T><TD> 4080<BR><TD> The Amiga Boot Sequence and Errors
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/amiga_technical_info.txt">amiga_technical_info.txt</A>  <tab to=T><TD> 43685<BR><TD> USENET Postings: Amiga Technical Information (1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/amihist.txt">amihist.txt</A>  <tab to=T><TD> 19261<BR><TD> Notes of RJ Mical Speaking about the Rise and Fall of Amiga Computer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/amiport.txt">amiport.txt</A>  <tab to=T><TD> 10617<BR><TD> More Ports for your Amiga: An I/O Expansion Board
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/amscsi.txt">amscsi.txt</A>  <tab to=T><TD> 6497<BR><TD> Building a SCSI COntroller for the Amiga
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/anderson.asc">anderson.asc</A>  <tab to=T><TD> 130304<BR><TD> Kermit for OS/2 by Brian R. Anderson (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/anderson.lst">anderson.lst</A>  <tab to=T><TD> 5622<BR><TD> C Customized Memory Allocators by Paul ANderson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/andrson2.asc">andrson2.asc</A>  <tab to=T><TD> 135168<BR><TD> Kermit for OS/2 by Brian R. ANderson (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/anetwork.txt">anetwork.txt</A>  <tab to=T><TD> 3363<BR><TD> Making a Simple Atari ST to Atari ST Link
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/anonymit">anonymit</A>  <tab to=T><TD> 34657<BR><TD> The Joy of Handles, or Everything You Always Wanted to Know About Me But Have No Right to Ask, 1992
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/antiarq.txt">antiarq.txt</A>  <tab to=T><TD> 1257<BR><TD> Getting Rid of the ARQ Flashing by Mr. Fone
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/anywhere.txt">anywhere.txt</A>  <tab to=T><TD> 4142<BR><TD> DOCUMENTATION: The Anywhere Scroller Version 1.00
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/appendix.txt">appendix.txt</A>  <tab to=T><TD> 3866<BR><TD> A Listing of Modem And Information Standards
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/apple.txt">apple.txt</A>  <tab to=T><TD> 7253<BR><TD> The Text of the Apple-Microsoft Agreement
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/arcsuit.txt">arcsuit.txt</A>  <tab to=T><TD> 56430<BR><TD> Court Complaint from System Enhancement Associates and PKWARE (July 6, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/arthayes.txt">arthayes.txt</A>  <tab to=T><TD> 30471<BR><TD> General Introduction to HAYES Modems and Compatabiles by Ignaat Simons
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ascii">ascii</A>  <tab to=T><TD> 7504<BR><TD> Folklore: The Original Uses of the Unusual ASCII Codes, by Douglas Jones (June 2, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ascii.inc">ascii.inc</A>  <tab to=T><TD> 1040<BR><TD> A Short List of ASCII Character Set Definitions
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/asm.txt">asm.txt</A>  <tab to=T><TD> 101753<BR><TD> The 8086 Family Architecture
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/asmstr.asc">asmstr.asc</A>  <tab to=T><TD> 23451<BR><TD> Structured Programming Column by Jeff Duntemann (February 3, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/asp3404.txt">asp3404.txt</A>  <tab to=T><TD> 274371<BR><TD> Catalog of Products from the Association of Software Professionals (October 4, 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/asp5202.txt">asp5202.txt</A>  <tab to=T><TD> 1219432<BR><TD> Catalog of Products from the Association of Software Professionals
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/asp5301.txt">asp5301.txt</A>  <tab to=T><TD> 1292374<BR><TD> Official Catalog of Products by Association of Shareware Professionals (Contents)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/asp804.txt">asp804.txt</A>  <tab to=T><TD> 1933029<BR><TD> Official Catalog of Products by Association of Shareware Professionals (Contents)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/asp9301.txt">asp9301.txt</A>  <tab to=T><TD> 2212930<BR><TD> Official Catalog of Products by Association of Shareware Professionals (Contents)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/asp9501.txt">asp9501.txt</A>  <tab to=T><TD> 1978185<BR><TD> Official Catalog of Products by Association of Shareware Professionals (Contents)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/aspbbs.dlm">aspbbs.dlm</A>  <tab to=T><TD> 42717<BR><TD> List of Association of Software Professionals Directory
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/atamnesa.txt">atamnesa.txt</A>  <tab to=T><TD> 2595<BR><TD> Hey! These IBM ATs have batteries inside and they're failing!
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/auping.asc">auping.asc</A>  <tab to=T><TD> 15046<BR><TD> Making the move to Modula 2 by J.V. Auping and Chis Johnston
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/author.lst">author.lst</A>  <tab to=T><TD> 96222<BR><TD> A List of Email addresses of 255 Reachable MS-DOS shareware and PD authors (December 17, 1995)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/autpub.frm">autpub.frm</A>  <tab to=T><TD> 5138<BR><TD> Application to Join the Association of Software Professionals
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/autstd.txt">autstd.txt</A>  <tab to=T><TD> 13029<BR><TD> Association of Software Professionals Membership Requirements
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/award.txt">award.txt</A>  <tab to=T><TD> 2346<BR><TD> Award BIOS Drive Type Table
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ayers.lst">ayers.lst</A>  <tab to=T><TD> 29009<BR><TD> An Object-Oriented Logic Simulator by Kenneth E. Ayers
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/babel92a.txt">babel92a.txt</A>  <tab to=T><TD> 79153<BR><TD> Babel: A Listing of Computer Oriented Abbreviations and Acronyms by Irving Kind, 1989-1992
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/babel94a.txt">babel94a.txt</A>  <tab to=T><TD> 105377<BR><TD> BABEL: A Glossary of Computer Oriented Abbreviations and Acronyms by Irving Kind Version 94A (1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/backdoor.txt">backdoor.txt</A>  <tab to=T><TD> 12384<BR><TD> Collection of Back Doors to computer games, by George Knochel
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bartle-m">bartle-m</A>  <tab to=T><TD> 450025<BR><TD> Interactive Multi-User Computer Games, a Report by Richard Bartle, 1990
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/basunix.hac">basunix.hac</A>  <tab to=T><TD> 15360<BR><TD> Basic UNIX Use by Lord Lawless
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bat&amp;conf.txt">bat&conf.txt</A>  <tab to=T><TD> 7401<BR><TD> Tricks to Use with Batch Files
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/batch.txt">batch.txt</A>  <tab to=T><TD> 51183<BR><TD> Batch Files for Efficiency: Getting Real Work Done
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/battery.txt">battery.txt</A>  <tab to=T><TD> 26055<BR><TD> Rechargeable Batteries and Laptop Computers
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bauer.lst">bauer.lst</A>  <tab to=T><TD> 10217<BR><TD> Optimizing in a Parallel Environment by Barr E. Bauer (199)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bb">bb</A>  <tab to=T><TD> 12057<BR><TD> Beta Bits by Tim Conner, Jr. (1986)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bbsnoise.txt">bbsnoise.txt</A>  <tab to=T><TD> 3251<BR><TD> Your System Has Noise, by Bill Noel
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/begunix.txt">begunix.txt</A>  <tab to=T><TD> 337256<BR><TD> A Beginner's Guide to UNIX, from the Denver Office (September 16, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/being.txt">being.txt</A>  <tab to=T><TD> 38959<BR><TD> Being in Nothingness: Virtual Reality and the Pioneers of Cyberspace, by John Perry Barlow
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/best.cps">best.cps</A>  <tab to=T><TD> 11430<BR><TD> Get the Best out of JRCOMM and your DUALST 14.4kbps on your Amiga, from The Spirit (May 19, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bev105.res">bev105.res</A>  <tab to=T><TD> 10421<BR><TD> The Hack Report Volume 2, Number 3 (March 7, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/biblio.lst">biblio.lst</A>  <tab to=T><TD> 28958<BR><TD> Bibliography of PC Interrupt Fuctions by Ralf Brown (February 11, 1996)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bibliog.txt">bibliog.txt</A>  <tab to=T><TD> 24448<BR><TD> Laptop and Portable Computer Books
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bill">bill</A>  <tab to=T><TD> 8784<BR><TD> Bill Gates Interview from PC Magazine
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bill1035.pro">bill1035.pro</A>  <tab to=T><TD> 16647<BR><TD> Description and Call to Arms on H.R. 1035
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bios1215.man">bios1215.man</A>  <tab to=T><TD> 4123<BR><TD> AMI 286 and 386 BIOS New Release Notes (December 15, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bios225.man">bios225.man</A>  <tab to=T><TD> 6288<BR><TD> AMI 286 and 386 BIOS Release Notes (February 25, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bios330.man">bios330.man</A>  <tab to=T><TD> 4264<BR><TD> AMI 286 and 386 BIOS Release Notes (March 30, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/biprint.txt">biprint.txt</A>  <tab to=T><TD> 9485<BR><TD> Making your PC Parallel Port Bi-Directional by Mark F. Bower (IBM PC) ((July 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bitsbaud.txt">bitsbaud.txt</A>  <tab to=T><TD> 10112<BR><TD>  Bits, Baud Rate, and BPS: Taking the Mystery Out of Modem Speeds, by Michael A. Banks
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/blt6">blt6</A>  <tab to=T><TD> 21816<BR><TD> Techniques for Off-Line Mail Reading, by Robert Dionne (May 6, 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/blum.lst">blum.lst</A>  <tab to=T><TD> 18024<BR><TD> Bidirectional Associative Memory Systems in C++, by Adam Blum
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/boost.txt">boost.txt</A>  <tab to=T><TD> 1670<BR><TD> An Audio Booster on the Amiga 500, by Chucky of Sargon
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bootfromdf1.txt">bootfromdf1.txt</A>  <tab to=T><TD> 6757<BR><TD> Saving DF0: by Booting up from DF1: by Les Ayling
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bowling.asc">bowling.asc</A>  <tab to=T><TD> 11641<BR><TD> Real-Time Modeling with MS-DOS by David Bowling
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bradbery.asc">bradbery.asc</A>  <tab to=T><TD> 12901<BR><TD> Porting Fortran Programs from Minis to PCS, by John L. Bradberry
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bright.lst">bright.lst</A>  <tab to=T><TD> 3200<BR><TD> Getting a Handle on Virtual Memory, by Walter Bright
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/bugrep.txt">bugrep.txt</A>  <tab to=T><TD> 1582<BR><TD> Bug Report Form for PKWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/buildit.doc">buildit.doc</A>  <tab to=T><TD> 59591<BR><TD> Building an IBM Compatible, or How to be a Real Clone, by DJ Elliott (January 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/buildit.txt">buildit.txt</A>  <tab to=T><TD> 33024<BR><TD> The Obese Agnus: The New 500 Board and Other Recent Experiences by Andrew WIlson (July 23, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/buy386">buy386</A>  <tab to=T><TD> 7996<BR><TD> The Developer's Guide to Buying a 386
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/buyguide.txt">buyguide.txt</A>  <tab to=T><TD> 25636<BR><TD> PC Gaming Sound Cards: A Buyer's Guide v0.34 by Dave Masten (November 4, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/c64topc.txt">c64topc.txt</A>  <tab to=T><TD> 5646<BR><TD> How to Connect a Commodore 64 Compatible Printer to an IBM PC Compatible Computer (March, 1995)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/cache.txt">cache.txt</A>  <tab to=T><TD> 5795<BR><TD> Disabling Write Caching in DOS 6
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/carriers.pro">carriers.pro</A>  <tab to=T><TD> 6100<BR><TD> Comparison of different Long Distance Carrier performance
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/cart.txt">cart.txt</A>  <tab to=T><TD> 8192<BR><TD> Turning an Atari ST's Cartridge Port into a Read/Write Port
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/cascade.txt">cascade.txt</A>  <tab to=T><TD> 6784<BR><TD> Information from Cascade Electronics about Being Ripped Off
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/caution.txt">caution.txt</A>  <tab to=T><TD> 4613<BR><TD> Doublespace in DOS 6
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/cbm_dead.txt">cbm_dead.txt</A>  <tab to=T><TD> 2610<BR><TD> Eulogy on Commodore as it Goes Under (From Down Under)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/cd-rom">cd-rom</A>  <tab to=T><TD> 93046<BR><TD> An Introduction to CD-ROM Technolgy by Andy Poggio (March 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/chaos.txt">chaos.txt</A>  <tab to=T><TD> 2432<BR><TD> Chaos, Strange Attractors and BrainMaker Plots
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/cheap144disk.txt">cheap144disk.txt</A>  <tab to=T><TD> 2996<BR><TD> Making a Cheap 1.44mb Disk!
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/cheats">cheats</A>  <tab to=T><TD> 40275<BR><TD> A Very Large Collection of Amiga Cheat Codes
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/cleankey.txt">cleankey.txt</A>  <tab to=T><TD> 9856<BR><TD> How to Clean the IBM PC Keyboard by David R. Bivens
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/clinton.sgi">clinton.sgi</A>  <tab to=T><TD> 38608<BR><TD> Remarks by the President and Vice President to Silicon Graphics Employees, Feb. 22, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/coemail">coemail</A>  <tab to=T><TD> 12431<BR><TD> Formulating A Company Policy on Access to and Use and Disclosure of Electronic Mail on Company Computer Systems, by the Electronic Mail Association, October 22, 1990
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/colors.32k">colors.32k</A>  <tab to=T><TD> 9679<BR><TD> Getting an Atari ST to Display 32,768 Colors by Barry orlando (September 9, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/colr.txt">colr.txt</A>  <tab to=T><TD> 8448<BR><TD> Guidelines for Effective Color Terminal Usage, from Tektronix
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/comdefs.hum">comdefs.hum</A>  <tab to=T><TD> 5121<BR><TD> Grab-Bag of Geeky and General Humor
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/comlpt.pro">comlpt.pro</A>  <tab to=T><TD> 4175<BR><TD> An Overview of PC Hardware's LPT/COM/IRQs
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/compdev.txt">compdev.txt</A>  <tab to=T><TD> 12301<BR><TD> Some Thoughts on the Development of Personal Computers by Duane Bristow
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/comphorror.hum">comphorror.hum</A>  <tab to=T><TD> 164912<BR><TD> A Fantastic Collection of Computer Horror Stories
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/compiler.tut">compiler.tut</A>  <tab to=T><TD> 8576<BR><TD> Compilers and How They Work: An Overview, by Lou Morgan
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/compuser">compuser</A>  <tab to=T><TD> 9572<BR><TD> The Gospel according to CompuServe! (Their position)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/conclus.txt">conclus.txt</A>  <tab to=T><TD> 17859<BR><TD> The Conclusion of the Courts in the INSLAW Software Case, January, 1992
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/config.txt">config.txt</A>  <tab to=T><TD> 34499<BR><TD> Your CONFIG.SYS and AUTOEXEC.BAT by Barry Simon, 1986
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/convmem.txt">convmem.txt</A>  <tab to=T><TD> 1078<BR><TD> JZig's Guide to Freeing Conventional Memory (On a PC)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/copyprot.pro">copyprot.pro</A>  <tab to=T><TD> 11392<BR><TD> Copy Protection: A History and Outlook
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/copyrigh.pro">copyrigh.pro</A>  <tab to=T><TD> 10880<BR><TD> Copyrighting Public Domain Programs
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/courierv34man.txt">courierv34man.txt</A>  <tab to=T><TD> 346655<BR><TD> The Courier V.34 Manual, by U.S. Robotics (1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/cpsranno">cpsranno</A>  <tab to=T><TD> 2259<BR><TD> Upcoming Conventions of Computers, privacy and Freedom (1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/cpucmp14.txt">cpucmp14.txt</A>  <tab to=T><TD> 31839<BR><TD> Performance Comparison: Intel 386DX, Intel RapidCAD, C&T 38600DX, Cyrix 486DLC by Norbert Juffa
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/crtstuff.txt">crtstuff.txt</A>  <tab to=T><TD> 51493<BR><TD> The Quest for the Ultimate Display System by Steve Gibson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/defrag.txt">defrag.txt</A>  <tab to=T><TD> 2291<BR><TD> Defragmenting a Doublespace Drive in DOS 6
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/designer.txt">designer.txt</A>  <tab to=T><TD> 9653<BR><TD> Sapphire Designer Notes, by Tim Campbell
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/diagnose.txt">diagnose.txt</A>  <tab to=T><TD> 18306<BR><TD> An introduction to Troubleshooting your IBM PC by Jerry Schneider of the Capital PC User Group
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/diagrams.txt">diagrams.txt</A>  <tab to=T><TD> 36835<BR><TD> Listing of Different Drives and Controllers for TheRef
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/disks1">disks1</A>  <tab to=T><TD> 15882<BR><TD> The Technology of Magnetic Disk Storage by Steve Gibson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/disks2">disks2</A>  <tab to=T><TD> 16889<BR><TD> A Hard Disk Drive for Steve's Dream Machine by Steve Gibson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/disks3">disks3</A>  <tab to=T><TD> 28492<BR><TD> The Logical Structure, Organization and Management of Hard Disk Drives by Steve Gibson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/dma.asc">dma.asc</A>  <tab to=T><TD> 18432<BR><TD> DMA Techniques for Personal Computer Data Acquisition
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/docwaste.txt">docwaste.txt</A>  <tab to=T><TD> 1033<BR><TD> George Gutman's Call for lack of spaces in DOC files
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/dodont.txt">dodont.txt</A>  <tab to=T><TD> 12638<BR><TD> How To Get The Most Out of Your New PC
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/dos-user.s-g">dos-user.s-g</A>  <tab to=T><TD> 3605<BR><TD> The PC User's Guide to UNIX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/dos6tips.txt">dos6tips.txt</A>  <tab to=T><TD> 1957<BR><TD> DOS 6 Tips and Tricks: Review
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/dos_err.txt">dos_err.txt</A>  <tab to=T><TD> 3456<BR><TD> Dos 2.0 Has Problems with Redirection of I/O
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/doshist.txt">doshist.txt</A>  <tab to=T><TD> 41430<BR><TD> The Development of DOS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/dosmem.txt">dosmem.txt</A>  <tab to=T><TD> 13205<BR><TD> The PC Memory Management Overview
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/dosmnual.txt">dosmnual.txt</A>  <tab to=T><TD> 42543<BR><TD> PC/MS-DOS: The Essentials, by George Campbell
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/drives.txt">drives.txt</A>  <tab to=T><TD> 5060<BR><TD> Driving Us Crazy, but For a Reason (Hard Drive Overview) by Alan Brenden
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/dvinter.1st">dvinter.1st</A>  <tab to=T><TD> 8430<BR><TD> The DESQview Interrupt List, Release 90.3, 07/15/90
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/dvscript.txt">dvscript.txt</A>  <tab to=T><TD> 2432<BR><TD> Creating and Using Scripts with DESQview
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ea.iff.85">ea.iff.85</A>  <tab to=T><TD> 63215<BR><TD> EA IFF 85: The Standard for Interchange Format Files by Jerry Morrison of Electronic Arts (January 14, 1985)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/earlybst.txt">earlybst.txt</A>  <tab to=T><TD> 6529<BR><TD> Timo's Subjective Choices of the Best Public Domain and Shareware MS-DOS Early Material (September 13, 1995)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/echtutor.txt">echtutor.txt</A>  <tab to=T><TD> 17437<BR><TD> A Tutorial on the New Phenomenon of Fido Echomail
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/eight.lws">eight.lws</A>  <tab to=T><TD> 14297<BR><TD> The Adventures of Lone Wolf Scientific: The House Where Andrew.BAS lived, by Michy Peshota
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/email">email</A>  <tab to=T><TD> 21201<BR><TD> A Large Suggested Summary of Policies on Electronic Mail
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/equip.txt">equip.txt</A>  <tab to=T><TD> 45113<BR><TD> Hints on Purchasing a Laptop Computer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/errors.txt">errors.txt</A>  <tab to=T><TD> 8182<BR><TD> A List of Errors by Hard Drives Under DOS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/esdi.txt">esdi.txt</A>  <tab to=T><TD> 8326<BR><TD> Basic Installation Procedure for ESDI Drives by Ruan Ramsey (July 3, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/essays.txt">essays.txt</A>  <tab to=T><TD> 263347<BR><TD> Art in the Age of Digital Dissemination: Class Essays from an Art and Technology Course, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/execnois.txt">execnois.txt</A>  <tab to=T><TD> 3889<BR><TD> If You Are Getting Garbage On the Screen (Modem Diagnostics)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ext-ram.txt">ext-ram.txt</A>  <tab to=T><TD> 14198<BR><TD> An Extended RAM Tutorial for MS-DOS by Raymond Dunn
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/fangrev3a500">fangrev3a500</A>  <tab to=T><TD> 3372<BR><TD> Making a Faster Agnus Chip, by Hans Van Der Werf (October 30, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/faq.txt">faq.txt</A>  <tab to=T><TD> 52582<BR><TD> FAQ: OS/2 Frequently Asked Questions List: User's Edition Verison 2.0 (April 25, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/fbi.sys">fbi.sys</A>  <tab to=T><TD> 5192<BR><TD> Summary of FBI Computer Systems, by Ralph Harvey of Full Disclosure
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/fcc.txt">fcc.txt</A>  <tab to=T><TD> 12545<BR><TD> Computer and Software News Part 1 by Tim Elmer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/fd_ref42.lan">fd_ref42.lan</A>  <tab to=T><TD> 36874<BR><TD> A Large Floppy Drive Directory Version 4.2 (October 1, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/fd_ref42.por">fd_ref42.por</A>  <tab to=T><TD> 23264<BR><TD> Floppy Drive Directory by TheRef Version 4.2 (October 1, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/fdd">fdd</A>  <tab to=T><TD> 11750<BR><TD> teria, by Bud Leroy
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/fileid.txt">fileid.txt</A>  <tab to=T><TD> 18022<BR><TD> Information on Why You Should Use FILE_ID.DIZ
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/filename.txt">filename.txt</A>  <tab to=T><TD> 21870<BR><TD> File Names and Extensions: The Keys to the Kingdom
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/flop.txt">flop.txt</A>  <tab to=T><TD> 3194<BR><TD> Using Doublespace on Floppy Disks in DOS 6
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/floppies.txt">floppies.txt</A>  <tab to=T><TD> 15744<BR><TD> Everything You've Ever Wanted to Know Abut Floppy Disks by Ted Jensen
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/format.txt">format.txt</A>  <tab to=T><TD> 2510<BR><TD> Photo/Digital Specifications for GIF Files
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/forums.lst">forums.lst</A>  <tab to=T><TD> 20327<BR><TD> A Complete List of Public Forums on Online Services by Ed Girou of the CompuServe Practice Forum (June 1, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/freedom.pro">freedom.pro</A>  <tab to=T><TD> 6068<BR><TD> Must We Declare an Electronic Declaration of Independence
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/freenet.cap">freenet.cap</A>  <tab to=T><TD> 13691<BR><TD> The Concept of Community Computing
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/fricc">fricc</A>  <tab to=T><TD> 2296<BR><TD> The FRICC Policy on Interocnnectivity and Resource Sharing
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ftp2uk23.inf">ftp2uk23.inf</A>  <tab to=T><TD> 71087<BR><TD> Notes for PC/MSDOS users at UK JANET sites (April 27, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ftxt">ftxt</A>  <tab to=T><TD> 19014<BR><TD> Information on FTXT: A Text Standard for IFF Files from Steve Shaw and Jerry Morrison, Electronic Arts (November 15, 1985)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/fyi-8">fyi-8</A>  <tab to=T><TD> 253367<BR><TD> The Site Security Handbook, a guideline for computer systems, July 1991
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/galileo.txt">galileo.txt</A>  <tab to=T><TD> 93697<BR><TD> The STS-34 Press Kit (Exploratory Spacecraft)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/gameport.inf">gameport.inf</A>  <tab to=T><TD> 3231<BR><TD> Specifications for the IBM/PC Game Port Connector (April 6, 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/genderol">genderol</A>  <tab to=T><TD> 25452<BR><TD> Gender Issues in Online Communications by Hoai-An Truong, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/genlock.txt">genlock.txt</A>  <tab to=T><TD> 19649<BR><TD> The Genlock Circuit Operation Description
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/gfxhints.txt">gfxhints.txt</A>  <tab to=T><TD> 30197<BR><TD> Some Hints on Improving your Computer Graphics
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/gifstd.txt">gifstd.txt</A>  <tab to=T><TD> 31874<BR><TD> The GIF Specification
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/glossary.lst">glossary.lst</A>  <tab to=T><TD> 35647<BR><TD> Glossary of Computer Terms
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/glossary.txt">glossary.txt</A>  <tab to=T><TD> 3311<BR><TD> Yet Another Computer Glossary
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/gnu">gnu</A>  <tab to=T><TD> 23949<BR><TD> The GNU Manifesto by Richard Stallman (1985)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hack_pom.txt">hack_pom.txt</A>  <tab to=T><TD> 2215<BR><TD> Casey at the Byte (Parody of Casey at the Bat)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hacktest.txt">hacktest.txt</A>  <tab to=T><TD> 8497<BR><TD> The Hacker Test Version 3.0:  Another 'Adventure in Software' from SuperNova Software by Rich 'Crash' Lewis, Jr. (1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hallfame.txt">hallfame.txt</A>  <tab to=T><TD> 100594<BR><TD> The Freeware Hall of Fame by Rey Barry (June, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/handles.txt">handles.txt</A>  <tab to=T><TD> 33215<BR><TD> The Joy of Handles (or, Everything You Always Wanted to Know About Me but Have No Right to Ask)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hayes.txt">hayes.txt</A>  <tab to=T><TD> 322645<BR><TD> Technical Reference for Hayes Modem Users, Version 1.0, November 1990
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hd.txt">hd.txt</A>  <tab to=T><TD> 28948<BR><TD> Hard Disks: The Essential Accessory
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hd_mfr41.dir">hd_mfr41.dir</A>  <tab to=T><TD> 23897<BR><TD> Hard Disk Drive Manufacturer Directory (January 3, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hd_ref41.lan">hd_ref41.lan</A>  <tab to=T><TD> 404370<BR><TD> Hard Disk Drive Directory Version 4.1 (January 3, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hd_ref41.por">hd_ref41.por</A>  <tab to=T><TD> 309167<BR><TD> Hard Disk Drive Directory Version 4.1 (January 3, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hd_ref43.lan">hd_ref43.lan</A>  <tab to=T><TD> 692412<BR><TD> Hard Disk Drive Directory Version 4.30 (May 1, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hd_ref43.por">hd_ref43.por</A>  <tab to=T><TD> 587412<BR><TD> Hard Disk Drive Directory (May 1, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/help.txt">help.txt</A>  <tab to=T><TD> 3737<BR><TD> The DOS 6 Help File
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hint89.txt">hint89.txt</A>  <tab to=T><TD> 2945<BR><TD> Configuring Autoexec.bat and Config.Sys Files (December 1, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/history.txt">history.txt</A>  <tab to=T><TD> 17081<BR><TD> A Little PC History: Where We've Been with No Idea Where We're Going!
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hoagco.cis">hoagco.cis</A>  <tab to=T><TD> 37883<BR><TD> Transcription from Compuserve of Various Information by Hoagland Mars Mission
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hoagland.let">hoagland.let</A>  <tab to=T><TD> 29828<BR><TD> Letter from Richard Hoagland (December 1, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/honey.txt">honey.txt</A>  <tab to=T><TD> 4144<BR><TD> Honey, Can the Computer Do This? By Wayne Garrison
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/how2mnp.txt">how2mnp.txt</A>  <tab to=T><TD> 30321<BR><TD> How to do MNP Modem Protocol
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/hsdiag.res">hsdiag.res</A>  <tab to=T><TD> 6557<BR><TD> The Hack Report Volume 2, Number 5 by Lee Jackson (April 10, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/i4004.txt">i4004.txt</A>  <tab to=T><TD> 3213<BR><TD> Before the Great Dark Cloud: Information on the Intel 4004
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ibm.fu">ibm.fu</A>  <tab to=T><TD> 6757<BR><TD> OS/2 Is Still Vaporware (June 4, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/itcfree.800">itcfree.800</A>  <tab to=T><TD> 3563<BR><TD> Information on the ITCnet Toll Free Communications Network by Jack Reece
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/jadu13.rvw">jadu13.rvw</A>  <tab to=T><TD> 3983<BR><TD> REVIEW: Just Another Disk Utility Version 1.3 (October, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/jargn10.txt">jargn10.txt</A>  <tab to=T><TD> 1128344<BR><TD> Eric Raymond's Jargon File, Version 2.9.10, July 1992
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/jrquiet.txt">jrquiet.txt</A>  <tab to=T><TD> 468<BR><TD> Silencing the pesky IBM PCJr hard drive
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/karpov.pro">karpov.pro</A>  <tab to=T><TD> 6120<BR><TD> Karpov vs. DEEP THOUGHT: The Overview, by Darren Bedwell
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/kcah-1">kcah-1</A>  <tab to=T><TD> 32102<BR><TD> KCAH Volume 1
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/kcah-2">kcah-2</A>  <tab to=T><TD> 17440<BR><TD> KCAH Volume 2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/kildall.txt">kildall.txt</A>  <tab to=T><TD> 11552<BR><TD> The Gary Kildall Legacy, by Sol Libes (1996)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/killer.pro">killer.pro</A>  <tab to=T><TD> 3056<BR><TD> Killer DOS Stalks Software
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/language.lis">language.lis</A>  <tab to=T><TD> 390367<BR><TD> The Language List, Version 1.9, Jan. 13, 1993: Collected information on about 2000 computer languages, past and present
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/licence">licence</A>  <tab to=T><TD> 12488<BR><TD> The GNU General Public License Version 1 (February 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/lrplan.txt">lrplan.txt</A>  <tab to=T><TD> 2924<BR><TD> The Long Range Plans of the University of Pittsburgh for their Computing Facilities
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mac2tel.v2.txt">mac2tel.v2.txt</A>  <tab to=T><TD> 8864<BR><TD> How to Get Digitized Macintosh Sounds Into a Modem
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mac_oscillators.txt">mac_oscillators.txt</A>  <tab to=T><TD> 28179<BR><TD> A Macintosh Crystal Oscillator Speedup, by Marc Schrier (April, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/maccrack.txt">maccrack.txt</A>  <tab to=T><TD> 7038<BR><TD> A Collection of Macintosh Unprotect Schemes
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mactricks.txt">mactricks.txt</A>  <tab to=T><TD> 5942<BR><TD> Some Mac Tricks for Novices by Steve J. McAllister (February 28, 1995)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mailordr.pro">mailordr.pro</A>  <tab to=T><TD> 2825<BR><TD> Really Angry Complaining Letter
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/manners.txt">manners.txt</A>  <tab to=T><TD> 7464<BR><TD> Computer Etiquitte, by Mel North
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/manyhint.txt">manyhint.txt</A>  <tab to=T><TD> 15640<BR><TD> ATARI ST Guaranteed Cheat Codes and Strategies
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/may-bust.txt">may-bust.txt</A>  <tab to=T><TD> 6617<BR><TD> Busted! By the Leviathan
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mdic150.txt">mdic150.txt</A>  <tab to=T><TD> 136696<BR><TD> The Modem Dictionary, by R. Scottt Perry, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mdic200.txt">mdic200.txt</A>  <tab to=T><TD> 155549<BR><TD> The Modem Dictionary Version 2.0 by R. Scott Perry (1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mism16.hac">mism16.hac</A>  <tab to=T><TD> 28288<BR><TD> The Kromery Converter/Free Electricity by John Bedini, Eike Mueller, and Tom Bearden
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mism18.hac">mism18.hac</A>  <tab to=T><TD> 42496<BR><TD> The New Tesla Electromagnetics and The Secrets of Free Electrical Energy (Part 1) by T. E. Bearden
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mnemonic.txt">mnemonic.txt</A>  <tab to=T><TD> 6705<BR><TD> An interesting Collection of Helpful Mnemonics
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/modem.txt">modem.txt</A>  <tab to=T><TD> 2016<BR><TD> Some Modem Specific Information: AT Command List
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/modemlif.hac">modemlif.hac</A>  <tab to=T><TD> 11074<BR><TD> The Modem Life: Is it Really Worth it? By The Nomad
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/modprobs.txt">modprobs.txt</A>  <tab to=T><TD> 13312<BR><TD> Modem Communication Problems by Graham Newton
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/morph.txt">morph.txt</A>  <tab to=T><TD> 9597<BR><TD> Several People Discuss that new Morphing Technology, 1991
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mrdos1.txt">mrdos1.txt</A>  <tab to=T><TD> 9381<BR><TD> If You Have Never Used Computers Before...  An Introduction
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mrdos2.txt">mrdos2.txt</A>  <tab to=T><TD> 5753<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part II)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mrdos3.txt">mrdos3.txt</A>  <tab to=T><TD> 8562<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part III)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mrdos4.txt">mrdos4.txt</A>  <tab to=T><TD> 5527<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part IV)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mrdos5.txt">mrdos5.txt</A>  <tab to=T><TD> 8148<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part V)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mrdos6.txt">mrdos6.txt</A>  <tab to=T><TD> 11242<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part VI)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/mrdos7.txt">mrdos7.txt</A>  <tab to=T><TD> 10060<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part VII)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/msbbs.txt">msbbs.txt</A>  <tab to=T><TD> 35293<BR><TD> Microsoft Windows Version 3.1 Windows Driver Library (December 9, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/msdos.txt">msdos.txt</A>  <tab to=T><TD> 8827<BR><TD> Some MS-DOS Specific Information
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/muck.txt">muck.txt</A>  <tab to=T><TD> 12965<BR><TD> The MUCK (Multi User Coding Kludge) Commands List
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/muck_edi.hel">muck_edi.hel</A>  <tab to=T><TD> 1457<BR><TD> The MUCK MUF (Programming Language) Reference
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/muf161.txt">muf161.txt</A>  <tab to=T><TD> 3044<BR><TD> The Fabulous Microsoft Undocumented Features Volume 1 Number 6
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/net_horm.txt">net_horm.txt</A>  <tab to=T><TD> 19189<BR><TD> Net Hormones: Infection Control assuming Cooperation among Computers by David Stodolsky
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/newkbdhack">newkbdhack</A>  <tab to=T><TD> 18258<BR><TD> A New Keyboard Hack for the Amiga, by Dana Peters
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/newstu.pro">newstu.pro</A>  <tab to=T><TD> 4117<BR><TD> PC New Technology Digest
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/noise.txt">noise.txt</A>  <tab to=T><TD> 7717<BR><TD> The Modem Noise Killer, Alpha Version
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/noise_1.txt">noise_1.txt</A>  <tab to=T><TD> 6020<BR><TD> Creating a Modem Noise Killer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ohs-rcs.txt">ohs-rcs.txt</A>  <tab to=T><TD> 58850<BR><TD> Information on the Orbital Manuvering System
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/opcodes.lst">opcodes.lst</A>  <tab to=T><TD> 32788<BR><TD> Undocumented Instructions and Documented Instruction of Processors, by Potemkin's Hackers Group (October 23, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/opt_wagr.txt">opt_wagr.txt</A>  <tab to=T><TD> 8561<BR><TD> Mathematic Formulas: Optimal Wagering by Michael Hall, 1991
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/org-anal">org-anal</A>  <tab to=T><TD> 67829<BR><TD> Organizational Analysis in Computer Science by Rob Kling (June, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/p6fact.txt">p6fact.txt</A>  <tab to=T><TD> 1921<BR><TD> An overview of the P6 Processor
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/paging_g.ame">paging_g.ame</A>  <tab to=T><TD> 4275<BR><TD> The Paging Game, by Jeff Berryman describing how Memory Paging Works
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/paranoia.pro">paranoia.pro</A>  <tab to=T><TD> 4499<BR><TD> Paranoia Runs Through Computer Community, by John Dvorak
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/password.txt">password.txt</A>  <tab to=T><TD> 11460<BR><TD> Some Very Good Advice about Choosing a Password
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/pause.txt">pause.txt</A>  <tab to=T><TD> 1858<BR><TD> Making a pause on the 68000, by Chucky of Sargon
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/pc1hrdsk.add">pc1hrdsk.add</A>  <tab to=T><TD> 4388<BR><TD> Some Solutions for Old PC's and Hard Disks by Paul Vojta (February 28, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/pc869kb.txt">pc869kb.txt</A>  <tab to=T><TD> 9847<BR><TD> What is High Memory, and Why do I care, and How Can I Use It? By Cy Atkinson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/pcg102b.txt">pcg102b.txt</A>  <tab to=T><TD> 15745<BR><TD> The PC Gazette Volume 1.02 (Section b) (April, 1986)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/pcgnet">pcgnet</A>  <tab to=T><TD> 20716<BR><TD> The I/O Port: Communications with the PC Gazette (August 21, 1986)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/pcjrmem.txt">pcjrmem.txt</A>  <tab to=T><TD> 4224<BR><TD> Altering the IBM PC-JR 128 Memory Module to 512K by David James (July 20, 1986)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/pcjrtopc.txt">pcjrtopc.txt</A>  <tab to=T><TD> 3712<BR><TD> Instructions to Convert an IBM PCjr Color Monitor to a Standard DB 9 Connector
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/pcl100.txt">pcl100.txt</A>  <tab to=T><TD> 20296<BR><TD> List of HP Printer Escape Sequences (1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/pentium.txt">pentium.txt</A>  <tab to=T><TD> 15939<BR><TD> Intel Pentium(TM) Processor Technical Backgrounder
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/perstest.txt">perstest.txt</A>  <tab to=T><TD> 9361<BR><TD> Mind Reader: Do Personality Tests Pick Out Bad Apples?
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/phoenix.txt">phoenix.txt</A>  <tab to=T><TD> 2377<BR><TD> Phoenix BIOS Drive Type Table
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/photoscn.txt">photoscn.txt</A>  <tab to=T><TD> 6901<BR><TD> Photographing TV and Computer Screen Images
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/piracy.txt">piracy.txt</A>  <tab to=T><TD> 8451<BR><TD> Software Piracy: An Alternate View, by Jim Thomas and Gordon Meyer (March 5, 199)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/pntq&amp;a.txt">pntq&a.txt</A>  <tab to=T><TD> 10377<BR><TD> The Pentium Processor Q&A, March 22, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ports.lst">ports.lst</A>  <tab to=T><TD> 128622<BR><TD> XT, AT and PS/2  I/O port addresses (November 6, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/presizer.faq">presizer.faq</A>  <tab to=T><TD> 5860<BR><TD> FAQ: The Partition Resizer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/privacy.txt">privacy.txt</A>  <tab to=T><TD> 5474<BR><TD> The Rise of the CPSR (Computer Professionals for Social Responsibility)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/qf921124.txt">qf921124.txt</A>  <tab to=T><TD> 8101<BR><TD> QFACTS: The Representation of Facts and Information
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/r4300i.txt">r4300i.txt</A>  <tab to=T><TD> 24340<BR><TD> R4300i Microprocessor Technical Backgrounder
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/raspeed.res">raspeed.res</A>  <tab to=T><TD> 4949<BR><TD> The Hack Report, File Test Results, Volume 2, Number 6, May 29, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/rbrown.txt">rbrown.txt</A>  <tab to=T><TD> 22307<BR><TD> A List of Public Domain/Freeware/Shareware by Ralf Brown (1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/reagen.asc">reagen.asc</A>  <tab to=T><TD> 7936<BR><TD> Ram Disk Driver for UNIX by Jeff Reagen (May 2, 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/realaq.asc">realaq.asc</A>  <tab to=T><TD> 8351<BR><TD> Real-Time Data Acquisition by Mike Bunnell and Mitch Bunnell
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/realhack.txt">realhack.txt</A>  <tab to=T><TD> 11485<BR><TD> The Meaning of "Hack" from the Jargon File
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/regan.lst">regan.lst</A>  <tab to=T><TD> 11153<BR><TD> LZW Revisited by SHawn M. Regan (January, 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/rehabots.txt">rehabots.txt</A>  <tab to=T><TD> 3290<BR><TD> Robotics for Rehabilitation from Epitomes-Physical Medicine and Rehabilitation
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/remote.asc">remote.asc</A>  <tab to=T><TD> 11486<BR><TD> Remote Connectivity for Portable Terminals Part I by Dan Troy
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/remove.ada">remove.ada</A>  <tab to=T><TD> 20668<BR><TD> One Man's Crusade to Remove Ada From the Planet
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/renaissance.txt">renaissance.txt</A>  <tab to=T><TD> 22619<BR><TD> The Electronic Renaissance: A Course in the Ether, by Ellis L. "Skip" Knox (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/replies">replies</A>  <tab to=T><TD> 79819<BR><TD> Why Do Fans Blow Out? A List of Replies (April, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/requiem.pro">requiem.pro</A>  <tab to=T><TD> 9508<BR><TD> A really whiny complaint about how users suck
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/response.txt">response.txt</A>  <tab to=T><TD> 5623<BR><TD> Why Live in the Past? (The ARC and ZIP Fight)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/rights.pro">rights.pro</A>  <tab to=T><TD> 5120<BR><TD> Copyright Information for Computer Software Hacks
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ripscrip.txt">ripscrip.txt</A>  <tab to=T><TD> 166212<BR><TD> The RIPscrip Graphics Protocol Specification (May 12, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/rm-rf">rm-rf</A>  <tab to=T><TD> 8879<BR><TD> The RM -RF Story, by Mario Wolczko (The Recovery of a UNIX System)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/rogue.man">rogue.man</A>  <tab to=T><TD> 28003<BR><TD> A Guide to the Dungeons of Doom by Michael C. Toy and Kenneth C. R. C. Arnold
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/rpgrules.txt">rpgrules.txt</A>  <tab to=T><TD> 3230<BR><TD> The Rules of Role-Playing on the Galactic Net
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/rs232.txt">rs232.txt</A>  <tab to=T><TD> 21260<BR><TD> A Practical Guide to RS-232 Interfacing, by Lawrence E. Hughes
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/scavenge.txt">scavenge.txt</A>  <tab to=T><TD> 38319<BR><TD> DOCUMENTATION: Scavenger-Dialer Version 0.61
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/script.txt">script.txt</A>  <tab to=T><TD> 12079<BR><TD> How to use uSu Script Formats, by Cyberglitch
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/scsi.txt">scsi.txt</A>  <tab to=T><TD> 9003<BR><TD> Basical installation Procedure for SCSI Drives by Ryan Ramsey (June 22, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/scsidefs.txt">scsidefs.txt</A>  <tab to=T><TD> 113040<BR><TD> An Introduction to SCSI Definitions
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/sea.txt">sea.txt</A>  <tab to=T><TD> 12928<BR><TD> SEA vs. PKWARE: Shareware Company Threatens BBS World that Gave it Life
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/secret.txt">secret.txt</A>  <tab to=T><TD> 1217<BR><TD> A Windows 3.1 Secret
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/secrets.jok">secrets.jok</A>  <tab to=T><TD> 2167<BR><TD> Users' Guide to Little-Known Facts About Computers (Humor)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/serial.txt">serial.txt</A>  <tab to=T><TD> 5207<BR><TD> Programming the Serial Port
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/share.txt">share.txt</A>  <tab to=T><TD> 55380<BR><TD> The Shareware User's Guide to Shareware, Public Domain, Freeware and Commercial Software
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/sharew.txt">sharew.txt</A>  <tab to=T><TD> 4373<BR><TD> The Definition of Shareware, by Paul Mayer, Author of GRAB Plus
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/sharewr.inf">sharewr.inf</A>  <tab to=T><TD> 5813<BR><TD> What is Shareware? By Richard Martin (January 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/smus">smus</A>  <tab to=T><TD> 47165<BR><TD> SMUS IFF Simple Musical Score by Jerry Morrison of Electronic Arts (February 5, 1986)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/softshop.txt">softshop.txt</A>  <tab to=T><TD> 63378<BR><TD> 
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/software.txt">software.txt</A>  <tab to=T><TD> 16512<BR><TD> Software for Laptop Needs: A Listing of Shareware Vendors
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/stereo.txt">stereo.txt</A>  <tab to=T><TD> 8320<BR><TD> The Atari ST 520/1040 Stereo Modification
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/stips.txt">stips.txt</A>  <tab to=T><TD> 9714<BR><TD> Submissions and Tips and Tricks for DOS Booting v1.23 by Scorpio
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/stratari">stratari</A>  <tab to=T><TD> 29583<BR><TD> People Are Talking (About Atari ST Stuff) by Joe Mirando
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/supdev.txt">supdev.txt</A>  <tab to=T><TD> 5654<BR><TD> Supported Devices for Various DPT Drivers (November 21, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/support">support</A>  <tab to=T><TD> 7873<BR><TD> Programmer's Technical Reference for MSDOS and the IBM PC Version 2.2a
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/taeis.lng">taeis.lng</A>  <tab to=T><TD> 63557<BR><TD> A Collection of Artifical Languages from the Taeis Worlds
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/taoprog.pro">taoprog.pro</A>  <tab to=T><TD> 18515<BR><TD> The Tao Of Programming, Short Version.
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/taoprogram.pro">taoprogram.pro</A>  <tab to=T><TD> 27266<BR><TD> The Tao of Programming, Translated by Geoffrey James (Formatted)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tcad">tcad</A>  <tab to=T><TD> 11547<BR><TD> Computer-Aided Design of Tesla Coils, by Toby Grotz
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec001.txt">tec001.txt</A>  <tab to=T><TD> 1803<BR><TD> STAC Technical Note: Third party defragmentation programs and STACKER 2.0 and 1.x (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec002.txt">tec002.txt</A>  <tab to=T><TD> 4131<BR><TD> STAC Technical Note: QEMM386 and OPTIMIZE (September 18, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec004.txt">tec004.txt</A>  <tab to=T><TD> 1396<BR><TD> STAC Technical Note: Backing up STACKER drives (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec005.txt">tec005.txt</A>  <tab to=T><TD> 2564<BR><TD> STAC Technical Note: Miscellaneous STACKER Notes (May 24, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec006.txt">tec006.txt</A>  <tab to=T><TD> 2403<BR><TD> STAC Technical Note: LoadHI Information with Stacker (July 9, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec007.txt">tec007.txt</A>  <tab to=T><TD> 1886<BR><TD> STAC Technical Note: Removing STACKER (May 24, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec008.txt">tec008.txt</A>  <tab to=T><TD> 3285<BR><TD> STAC Technical Note: Stacker Coprocessor Installation Checklist (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec009.txt">tec009.txt</A>  <tab to=T><TD> 1572<BR><TD> STAC Technical Note: Stacker and Disk Cache Programs (May 24, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec010.txt">tec010.txt</A>  <tab to=T><TD> 2476<BR><TD> STAC Technical Note: Performance Differences Between Stacker Software and CoProcessor Versions (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec011.txt">tec011.txt</A>  <tab to=T><TD> 2355<BR><TD> STAC Technical Note: Scheck and Stacker Space Reporting (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec012.txt">tec012.txt</A>  <tab to=T><TD> 2073<BR><TD> STAC Technical Note: DR DOS and STACKER (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec013.txt">tec013.txt</A>  <tab to=T><TD> 2131<BR><TD> STAC Technical Note: Miscellaneous DOS and BOOT Issues with STACKER (June 26, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec014.txt">tec014.txt</A>  <tab to=T><TD> 4864<BR><TD> STAC Technical Note: DOS5 Information (June 18, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec015.txt">tec015.txt</A>  <tab to=T><TD> 2674<BR><TD> STAC Technical Note: DOS 5.0 Information (June 28, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec016.txt">tec016.txt</A>  <tab to=T><TD> 4129<BR><TD> STAC Technical Note: QEMM386 OPTIMIZE and STACKER Version 1.x (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec017.txt">tec017.txt</A>  <tab to=T><TD> 3907<BR><TD> STAC Technical Note: MAXIMIZE by Qualitas Corporation (September 6, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec018.txt">tec018.txt</A>  <tab to=T><TD> 3214<BR><TD> STAC Technical Note: Windows 3.0 in Enhanced Mode and Stacker (September 18, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec019.txt">tec019.txt</A>  <tab to=T><TD> 1266<BR><TD> STAC Technical Note: Finding SSWAPed Drives in C
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec020.txt">tec020.txt</A>  <tab to=T><TD> 2002<BR><TD> STAC Technical Note: Installing STACKER on an IBM PS/1 (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec021.txt">tec021.txt</A>  <tab to=T><TD> 5550<BR><TD> STAC Technical Note: Installing 386MAX and BlueMAX on a STACKER System
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec022.txt">tec022.txt</A>  <tab to=T><TD> 5341<BR><TD> STAC Technical Note: Using Stacker and QEMM by Robert Ngan
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec023.txt">tec023.txt</A>  <tab to=T><TD> 9441<BR><TD> STAC Technical Note: Upgrading to DR DOS 6.0 with STACKER Installed (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec024.txt">tec024.txt</A>  <tab to=T><TD> 2383<BR><TD> STAC Technical Note: STACKER 2.0 Device Driver Memory Requirements (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec026.txt">tec026.txt</A>  <tab to=T><TD> 1818<BR><TD> STAC Technical Note: Stacking the Harddrive on a Floppyless Notebook Computer (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec027.txt">tec027.txt</A>  <tab to=T><TD> 2932<BR><TD> STAC Technical Note: I Stacked my PS/1 Before I reconfigured the Way It Starts, Now What? (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec028.txt">tec028.txt</A>  <tab to=T><TD> 1812<BR><TD> STAC Technical Note: Stacking the Hard RAM Drive of a Palmtop (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec029.txt">tec029.txt</A>  <tab to=T><TD> 3861<BR><TD> STAC Technical Note: Stacking Up the HP 95LX Palmtop Computer (March 6, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tec030.txt">tec030.txt</A>  <tab to=T><TD> 2963<BR><TD> STAC Technical Note: QEMM386 Optimize and Stacker 2.0 (March 6, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/technom.ads">technom.ads</A>  <tab to=T><TD> 3145<BR><TD> An Archive of Writings and Files Related to Steven K. Roberts, the Techno-Nomad
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/techtip.txt">techtip.txt</A>  <tab to=T><TD> 4090<BR><TD> Some Tech Tips from the Micropolis BBS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/teletype.his">teletype.his</A>  <tab to=T><TD> 28523<BR><TD> History of Morkrum Company - Ancestor of Teletype Corporation
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/the_dark.er_">the_dark.er_</A>  <tab to=T><TD> 448695<BR><TD> Extremely Large Ranma 1/2 Fan Fiction Story
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/theory1.hac">theory1.hac</A>  <tab to=T><TD> 28850<BR><TD> Wireless Transmission of Power: Resonating Planet Earth by Toby Grotz
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/theory2.hac">theory2.hac</A>  <tab to=T><TD> 3560<BR><TD> Tesla Coil Theory Information
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tips.txt">tips.txt</A>  <tab to=T><TD> 42380<BR><TD> Computing Tips, Tricks and Traps plus Comments Regarding Environmentally Safe Computing
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tips0792.asc">tips0792.asc</A>  <tab to=T><TD> 25771<BR><TD> TIPS by Craig S. Stevenson of The Bertha BBS (July 1, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tjhelp.txt">tjhelp.txt</A>  <tab to=T><TD> 7637<BR><TD> Tips and Tricks fromT & J Software (August 7, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/travel.txt">travel.txt</A>  <tab to=T><TD> 18107<BR><TD> Information on Travelling with a Laptop Computer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/trivia.1">trivia.1</A>  <tab to=T><TD> 13294<BR><TD> Questions and Answers from the Second Computer Bowl, at the Boston Computer Museum (April 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/trivia.2">trivia.2</A>  <tab to=T><TD> 14616<BR><TD> Questions from the Third Annual Computer Bowl in San Jose (April 26, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/trojan.pro">trojan.pro</A>  <tab to=T><TD> 13312<BR><TD> Mark Garvin explains how a trojan horse got him
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/tsprog.inf">tsprog.inf</A>  <tab to=T><TD> 10957<BR><TD> A List of Program and Other Packages by Timo Salmi (February 25, 1996)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/twxhist.txt">twxhist.txt</A>  <tab to=T><TD> 16883<BR><TD> A History of Telex and Fax (Very Complete)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/udcnew.txt">udcnew.txt</A>  <tab to=T><TD> 46480<BR><TD> The Universal Data Converter, by Hannibal Lecter of Delamo Labs, Inc.
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/udp.txt">udp.txt</A>  <tab to=T><TD> 2887<BR><TD> Installing a DPT Controller with User-Definable Parameters
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ultra.txt">ultra.txt</A>  <tab to=T><TD> 10212<BR><TD> Gravis Ultrasound Tech Specs: The Unofficial Dox, by Tran of Renaissance and Joshua Jensen (December 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/unix.fun">unix.fun</A>  <tab to=T><TD> 4401<BR><TD> Collection of Funny Commands You can Enter in UNIX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/unixsec.txt">unixsec.txt</A>  <tab to=T><TD> 157190<BR><TD> Improving the Security of your UNIX System by David Curry (April 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/unravel.txt">unravel.txt</A>  <tab to=T><TD> 27343<BR><TD> The Unraveling Universe from Time Magazine
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/ut.sof">ut.sof</A>  <tab to=T><TD> 7939<BR><TD> The University of Toronto Acceptable Use Policy on Computer Software
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/v42bis.txt">v42bis.txt</A>  <tab to=T><TD> 12106<BR><TD> A Layman's Explanation of High Speed Modems, by Stan Simmons April 4, 1991
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/vcbackup.txt">vcbackup.txt</A>  <tab to=T><TD> 8064<BR><TD> How to Back-up your PC VisiCalc disk
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/vendlist.txt">vendlist.txt</A>  <tab to=T><TD> 3703229<BR><TD> The Vendor Phone List and Other Miscellaneous Info by Dan Kyburz (July 18, 1996)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/vendors">vendors</A>  <tab to=T><TD> 3275<BR><TD> VENDORS: Mapping of the First Three Bytes of an IEEE Mac Address Into Venfor's Name
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/vguide.txt">vguide.txt</A>  <tab to=T><TD> 118853<BR><TD> A Disk Vendor's Guide, by the Association of Shareware Professionals (March 15, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/vidtrix.txt">vidtrix.txt</A>  <tab to=T><TD> 3800<BR><TD> Tricks You Can Do With Your Video Camera
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/viewers.txt">viewers.txt</A>  <tab to=T><TD> 11245<BR><TD> Information on Different Picture Viewing Programs (October 5, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/visio.txt">visio.txt</A>  <tab to=T><TD> 8234<BR><TD> Visiophones: French High Tech Security by Pierre Marie Bourniquel
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/vrthea.art">vrthea.art</A>  <tab to=T><TD> 10306<BR><TD> Bringing Theatre into Virtual Worlds
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/wacky">wacky</A>  <tab to=T><TD> 3042<BR><TD> Introduction File for the FidoNet WackyNet Network
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/weird2_1.txt">weird2_1.txt</A>  <tab to=T><TD> 101705<BR><TD> The high weirdness by email v2.1
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/weirdstf.ans">weirdstf.ans</A>  <tab to=T><TD> 33410<BR><TD> The Weird Stuff Source List, 08/01/1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/weiskamp.lst">weiskamp.lst</A>  <tab to=T><TD> 15441<BR><TD> An Icon Editor by Keith Weiskamp and Loren Heiny
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/wellman.hac">wellman.hac</A>  <tab to=T><TD> 77936<BR><TD> The Complete Guide to the WELL (Whole Earth 'Lectronic Link)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/whatis.txt">whatis.txt</A>  <tab to=T><TD> 4274<BR><TD> What Is a Modem? (Introduction File)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/win31.txt">win31.txt</A>  <tab to=T><TD> 19333<BR><TD> General Compatibility Issues with Windows 3.1
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/winthere.asc">winthere.asc</A>  <tab to=T><TD> 3537<BR><TD> Winthere, a Program to Test for the Presence of Windows 3.0 by Ben Meyers (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/xdi.tec">xdi.tec</A>  <tab to=T><TD> 8904<BR><TD> XDI Specification for DESQview: Quarterdeck Technical Note by Daniel Travison
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/xga.doc">xga.doc</A>  <tab to=T><TD> 6887<BR><TD> How the XGA Graphics Settings are Achieved
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/xmodem.txt">xmodem.txt</A>  <tab to=T><TD> 6005<BR><TD> The Xmodem Protocol in General, by Lightning House Software
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/xt-640k.upd">xt-640k.upd</A>  <tab to=T><TD> 6940<BR><TD> Upgrading an Old IBM PC/XT to 640k, by Tony Movshon (March 2, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/xt286.txt">xt286.txt</A>  <tab to=T><TD> 7296<BR><TD> Some Highlights of the New PC XT Model 286
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/xtformat.txt">xtformat.txt</A>  <tab to=T><TD> 3456<BR><TD> Modifying the FORMAT Utility on an IBM-XT running Dos 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/yapnet">yapnet</A>  <tab to=T><TD> 4532<BR><TD> Overview of the Yapnet Echomail
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/youth">youth</A>  <tab to=T><TD> 2468<BR><TD> Introduction to YouthNet: A Communications Network for the Young and Young-At-heart
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/zoom">zoom</A>  <tab to=T><TD> 14561<BR><TD> Overview of the Hayes AT Command Set for the Zoom Modem
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="computers/zork3.txt">zork3.txt</A>  <tab to=T><TD> 1549<BR><TD> How to Backup and Unprotect Infocom's Zork III Game for IBM PC
+</TABLE><P><TABLE WIDTH=100%><TR><TD ALIGN=RIGHT><SMALL>There are 429 files for a total of 26,382,148 bytes.</SMALL><TR><TD ALIGN=RIGHT><SMALL>There are 5 directories.</SMALL></TABLE></BODY>
+</HTML>
+<P>If you wish to have the entire directory conveniently archived and compressed into one file, please download
+either <A HREF="http://archives.textfiles.com/computers.tar.gz"><B>computers.tar.gz</B></A> (9988380 bytes) or <A HREF="http://archives.textfiles.com/computers.zip"><B>computers.zip</B></A> (10983546 bytes) instead of all the files separately. <P>
--- a/textfiles.com/computers/.windex.html
+++ b/textfiles.com/computers/.windex.html
@@ -0,0 +1,464 @@
+<HTML>
+<TITLE>T E X T F I L E S</TITLE>
+<BODY BGCOLOR="#FFFFFF" TEXT="#000000" LINK="#000000" ALINK="#004400" VLINK="#004400">
+<H1>General Computer Textfiles</H1>
+<P>
+Your one-stop shop for all files of a "computery" nature, that cover how to
+rebuild a piece of computer hardware to do something it was 
+never meant to do, or to see someone go really deeply into a computing
+subject that would cause most people to yawn and look for the snack table.
+Since BBSes were on computers, it was natural for people who used BBSes
+to focus on all aspects of these wonderful machines.  The evidence of
+their interest and their experimentation resides below.
+<P>
+Of course, nearly ALL textfiles are computer-related in some fashion, and
+some subjects might fit here but fit even better in another section. For
+example, you should most definitely check out the
+<A HREF="../programming.1">programming</A>
+and <A HREF="../apple.1">apple</A> sections as well, as you might not agree with
+what I decided should go where.
+<P>
+<TABLE WIDTH=100%>
+<TD BGCOLOR=#000000><FONT COLOR=#FFFFFF><B>Filename</B><BR></FONT></TD>
+<TD BGCOLOR=#002200><FONT COLOR=#FFFFFF><B>Size</B><BR></FONT></TD>
+<TD BGCOLOR=#004400><FONT COLOR=#FFFFFF><B>Description of the Textfile</B><BR></TD></TR>
+
+<tab indent=60 id=T><br>
+<TR VALIGN=TOP><TD VALIGN=TOP><B><A HREF="ASTRESEARCH/.windex.html">ASTRESEARCH</A></B><TAB TO=T><TD WIDTH=20></TD><TD><B>Technical Bulletins from AST Research</B></TD></TR>
+<TR VALIGN=TOP><TD VALIGN=TOP><B><A HREF="CYBERSPACE/.windex.html">CYBERSPACE</A></B><TAB TO=T><TD WIDTH=20></TD><TD><B>Files Concering the Idea of "Cyberspace"</B></TD></TR>
+<TR VALIGN=TOP><TD VALIGN=TOP><B><A HREF="DOCUMENTATION/.windex.html">DOCUMENTATION</A></B><TAB TO=T><TD WIDTH=20></TD><TD><B>Documentation Files and Instruction Sets</B></TD></TR>
+<TR VALIGN=TOP><TD VALIGN=TOP><B><A HREF="HARDDRIVES/.windex.html">HARDDRIVES</A></B><TAB TO=T><TD WIDTH=20></TD><TD><B>Hard Drive Technical Information</B></TD></TR>
+<TR VALIGN=TOP><TD VALIGN=TOP><B><A HREF="PRESSRELEASE/.windex.html">PRESSRELEASE</A></B><TAB TO=T><TD WIDTH=20></TD><TD><B>Press Releases by Companies Long Forgotten</B></TD></TR>
+<TR><TD>&nbsp;</TD></TR>
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="1003v-mm">1003v-mm</A>  <tab to=T><TD> 4347<BR><TD> Information on the Western Digital 1000v-MMx Series
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="1006v-sr">1006v-sr</A>  <tab to=T><TD> 4347<BR><TD> Information on the Western Digital WD1006V-SR1 and 2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="1080mods">1080mods</A>  <tab to=T><TD> 3610<BR><TD> Amiga 1080 Monitor Modifications
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="1105.txt">1105.txt</A>  <tab to=T><TD> 2468<BR><TD> How to Boot with DR DOS (October 31, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="144_ctrl.txt">144_ctrl.txt</A>  <tab to=T><TD> 6819<BR><TD> Zaphod Beeblebrox' Notes on using PC 1.44mb 3.5" Drives with Atari STs and STEs
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="144disk.txt">144disk.txt</A>  <tab to=T><TD> 6178<BR><TD> Edited Textfile about 3.5" Diskette Formats, from Kevin Maier of IBM Corporation (May 10, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="144meg.txt">144meg.txt</A>  <tab to=T><TD> 13288<BR><TD> How to Upgrade your Atari ST Floppies to 1.44mb 3.5" Drives, by Robert B. Pegram
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="1541.tri">1541.tri</A>  <tab to=T><TD> 12170<BR><TD> Two Rarely Used 1541 Disk Drive Functions, by Peter Weighill (September 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="154xb">154xb</A>  <tab to=T><TD> 8693<BR><TD> JUMPERS: Adaptec AHA-1540B
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="16550a_n">16550a_n</A>  <tab to=T><TD> 5842<BR><TD> Information on the 16550a UART
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="1991-12">1991-12</A>  <tab to=T><TD> 42275<BR><TD> What is ISDN Good for? By Mitch Kapor of the EFF (December 10, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="1pt4mb.inf">1pt4mb.inf</A>  <tab to=T><TD> 5035<BR><TD> Notes on the Use of 1.4mb Drives in AT Compatibles
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="2310-12">2310-12</A>  <tab to=T><TD> 4347<BR><TD> JUMPERS: Adaptec ACB-2310,12
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="2496">2496</A>  <tab to=T><TD> 4891<BR><TD> How to upgrade your US Robotics 2400 Baud Modem into a 9600 Baud Modem by Death Bringer 06/07/1991
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="24to96x.txt">24to96x.txt</A>  <tab to=T><TD> 7424<BR><TD> Complaint about a file purporting to convert a 2400bd Modem to 9600 baud; claims it's a Hoax
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="25mgupgd.txt">25mgupgd.txt</A>  <tab to=T><TD> 13929<BR><TD> A 2.5 Meg Socketed RAM Upgrade for the 1040ST by Barry Orlando (Decmber 28, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="286">286</A>  <tab to=T><TD> 6326<BR><TD> A Review of Compaq DeskPro 286 by Bob McDuffee
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="286-2">286-2</A>  <tab to=T><TD> 2828<BR><TD> Part 2 of the Review of the Compaq DeskPro 286 by Bob McDuffee
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="28_8khst.txt">28_8khst.txt</A>  <tab to=T><TD> 9335<BR><TD> US Robotics Announces the Last Modem You'll Ever Buy (Press Release, June 8, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="2ndrs232.txt">2ndrs232.txt</A>  <tab to=T><TD> 7725<BR><TD> How to Get a Second RS232 Port For Your Atari (July 15, 1987)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="2w93358a.txt">2w93358a.txt</A>  <tab to=T><TD> 4445<BR><TD> Guide to PGP Operations in a Secure Environment
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="386486.txt">386486.txt</A>  <tab to=T><TD> 5589<BR><TD> A Low Cost Performance Boost for Your 386 PC
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="400top.txt">400top.txt</A>  <tab to=T><TD> 12870<BR><TD> The SatisFAXtion Modem/400: Solutions to Common Problems
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="401bugs.txt">401bugs.txt</A>  <tab to=T><TD> 7387<BR><TD> Two Suspected Bugs in MS-DOS v4.01 by William S. Ataras III (June 5, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="450baud.txt">450baud.txt</A>  <tab to=T><TD> 7296<BR><TD> On the Topic of 450 Baud, by Scott Loftesness, May 28, 1983
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="486vs040.txt">486vs040.txt</A>  <tab to=T><TD> 15981<BR><TD> CISC: The Intel 80486 vs. The Motorola MC68040 from Advanced Microprocessors by Daniel Tabak (Scribed by Mike, July 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="4chan8bi.asc">4chan8bi.asc</A>  <tab to=T><TD> 8688<BR><TD> Plans for a 4-Channel 8-Bit Analog-to-Digital Converter for PC from Francis J. Deck
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="4dostips.txt">4dostips.txt</A>  <tab to=T><TD> 3297<BR><TD> 4DOS Specific Information and Tips
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="500hacks.txt">500hacks.txt</A>  <tab to=T><TD> 46075<BR><TD> A Do It Yourself Guide to Computer Repair and Modification of the PC and Amiga 500 from Lewin Edwards
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="500mm.txt">500mm.txt</A>  <tab to=T><TD> 6983<BR><TD> Disk Storage Reaches Molecular Level, from Video Computing November/December 1988 Issue
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="68040.txt">68040.txt</A>  <tab to=T><TD> 12653<BR><TD> The New CISC Micorporcessor offers RISC Performance
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="86bugs.lst">86bugs.lst</A>  <tab to=T><TD> 13776<BR><TD> Harald Feldmann's 86BUGS List (November 3, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="87.set">87.set</A>  <tab to=T><TD> 15313<BR><TD> Information about the 8087 and 287 Coprocessors
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="8bitcomp.txt">8bitcomp.txt</A>  <tab to=T><TD> 24445<BR><TD> The Designing and Building of an 8-Bit Computer: A Personal Story, by Mark Balch (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="8chan12b.asc">8chan12b.asc</A>  <tab to=T><TD> 6047<BR><TD> Chap 12-Bit ADC for IBM PC by Francis J. Deck
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="8meg_exp.txt">8meg_exp.txt</A>  <tab to=T><TD> 8158<BR><TD> An Amiga 8meg RAM Expander, by John Kamchen (1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="9600.inf">9600.inf</A>  <tab to=T><TD> 19072<BR><TD> The Long, Painful Road to a 9600 Baud Standard
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="9600data.txt">9600data.txt</A>  <tab to=T><TD> 30848<BR><TD> A Comparison of High Speed Modems Compatibility/Features/Differences/Prices (March 3, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="9600info.inf">9600info.inf</A>  <tab to=T><TD> 19119<BR><TD> 9600 Baud Modems: An Overview
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="a4000">a4000</A>  <tab to=T><TD> 6725<BR><TD> A Scared Amiga Beta Tester lets the Cat out of the Bag about the Amiga 4000
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="a5000.txt">a5000.txt</A>  <tab to=T><TD> 11864<BR><TD> The First Reports of the Amiga 5000
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="a500_1mb">a500_1mb</A>  <tab to=T><TD> 8312<BR><TD> Directions on How to Convert your Amiga 501 Cartridge to Chip RAM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="aboutems.txt">aboutems.txt</A>  <tab to=T><TD> 27370<BR><TD> Memory Expansion in80x86-Based Computers Under MS-DOS by John Wilson of Hyperdyne
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="abrash.lst">abrash.lst</A>  <tab to=T><TD> 20429<BR><TD> Roll Your Own Minilanguages with Mini-Interpreters, by Michael Abrash and Dan Illowsky (1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="accel.txt">accel.txt</A>  <tab to=T><TD> 3948<BR><TD> An Amiga 500 Processor Accellerator Project, by Leslie Ayling
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="act-13.txt">act-13.txt</A>  <tab to=T><TD> 63155<BR><TD> The Amateur Crackist Tutorial Version 1.3 by Specular Vision
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="adapter.txt">adapter.txt</A>  <tab to=T><TD> 18556<BR><TD> How to Connect a PC to a VideoCrypt Decoder, by Markus Kuhn (June 19, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="add5.25drive.txt">add5.25drive.txt</A>  <tab to=T><TD> 3576<BR><TD> How to Hook a 5.25" Drive to your Amiga, by Les Ayling
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="add512kb">add512kb</A>  <tab to=T><TD> 2438<BR><TD> How to install a 1mb Chip into an Amiga 500 on the Mothercard
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="addcard.txt">addcard.txt</A>  <tab to=T><TD> 2291<BR><TD> Hack to Allow an Amiga 1000 or Amiga 500 to expand its 86-pin slot to 100pin
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="addictio.txt">addictio.txt</A>  <tab to=T><TD> 7589<BR><TD> The Tragedy of Online Addiction, by Steve King
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="addrive.txt">addrive.txt</A>  <tab to=T><TD> 8357<BR><TD> Generic 3.5 Inch Double Sided Disk Drive for the Atari 520/1040 Series
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="aids.txt">aids.txt</A>  <tab to=T><TD> 1571<BR><TD> The AIDS Trojan Horse Program Marches On (March 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="all-help.tec">all-help.tec</A>  <tab to=T><TD> 36845<BR><TD> All the Help Scripts from the DESQview 2.26, QEMM 5.0, Manifest 1.0, QRAM 1.0, etc.
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="alsnutt1">alsnutt1</A>  <tab to=T><TD> 2182<BR><TD> Big Al's Norton Utilities Tech Tips Volume 1 Number 1 by Al Hansen (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="alt-bin.txt">alt-bin.txt</A>  <tab to=T><TD> 49521<BR><TD> Notes on Decoduing UUENCODEd .GIF Files
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ami-chts.txt">ami-chts.txt</A>  <tab to=T><TD> 182700<BR><TD> Large Collection of Amiga Video Game Cheats
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ami-init.txt">ami-init.txt</A>  <tab to=T><TD> 4080<BR><TD> The Amiga Boot Sequence and Errors
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="amihist.txt">amihist.txt</A>  <tab to=T><TD> 19261<BR><TD> Notes of RJ Mical Speaking about the Rise and Fall of Amiga Computer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="amiport.txt">amiport.txt</A>  <tab to=T><TD> 10617<BR><TD> More Ports for your Amiga: An I/O Expansion Board
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="amscsi.txt">amscsi.txt</A>  <tab to=T><TD> 6497<BR><TD> Building a SCSI COntroller for the Amiga
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="anderson.asc">anderson.asc</A>  <tab to=T><TD> 130304<BR><TD> Kermit for OS/2 by Brian R. Anderson (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="anderson.lst">anderson.lst</A>  <tab to=T><TD> 5622<BR><TD> C Customized Memory Allocators by Paul ANderson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="andrson2.asc">andrson2.asc</A>  <tab to=T><TD> 135168<BR><TD> Kermit for OS/2 by Brian R. ANderson (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="anetwork.txt">anetwork.txt</A>  <tab to=T><TD> 3363<BR><TD> Making a Simple Atari ST to Atari ST Link
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="anonymit">anonymit</A>  <tab to=T><TD> 34657<BR><TD> The Joy of Handles, or Everything You Always Wanted to Know About Me But Have No Right to Ask, 1992
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="antiarq.txt">antiarq.txt</A>  <tab to=T><TD> 1257<BR><TD> Getting Rid of the ARQ Flashing by Mr. Fone
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="anywhere.txt">anywhere.txt</A>  <tab to=T><TD> 4142<BR><TD> DOCUMENTATION: The Anywhere Scroller Version 1.00
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="appendix.txt">appendix.txt</A>  <tab to=T><TD> 3866<BR><TD> A Listing of Modem And Information Standards
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="apple.txt">apple.txt</A>  <tab to=T><TD> 7253<BR><TD> The Text of the Apple-Microsoft Agreement
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="arcsuit.txt">arcsuit.txt</A>  <tab to=T><TD> 56430<BR><TD> Court Complaint from System Enhancement Associates and PKWARE (July 6, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="arthayes.txt">arthayes.txt</A>  <tab to=T><TD> 30471<BR><TD> General Introduction to HAYES Modems and Compatabiles by Ignaat Simons
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ascii">ascii</A>  <tab to=T><TD> 7504<BR><TD> Folklore: The Original Uses of the Unusual ASCII Codes, by Douglas Jones (June 2, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ascii.inc">ascii.inc</A>  <tab to=T><TD> 1040<BR><TD> A Short List of ASCII Character Set Definitions
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="asm.txt">asm.txt</A>  <tab to=T><TD> 101753<BR><TD> The 8086 Family Architecture
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="asmstr.asc">asmstr.asc</A>  <tab to=T><TD> 23451<BR><TD> Structured Programming Column by Jeff Duntemann (February 3, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="asp3404.txt">asp3404.txt</A>  <tab to=T><TD> 274371<BR><TD> Catalog of Products from the Association of Software Professionals (October 4, 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="asp5202.txt">asp5202.txt</A>  <tab to=T><TD> 1219432<BR><TD> Catalog of Products from the Association of Software Professionals
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="asp5301.txt">asp5301.txt</A>  <tab to=T><TD> 1292374<BR><TD> Official Catalog of Products by Association of Shareware Professionals (Contents)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="asp804.txt">asp804.txt</A>  <tab to=T><TD> 1933029<BR><TD> Official Catalog of Products by Association of Shareware Professionals (Contents)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="asp9301.txt">asp9301.txt</A>  <tab to=T><TD> 2212930<BR><TD> Official Catalog of Products by Association of Shareware Professionals (Contents)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="asp9501.txt">asp9501.txt</A>  <tab to=T><TD> 1978185<BR><TD> Official Catalog of Products by Association of Shareware Professionals (Contents)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="aspbbs.dlm">aspbbs.dlm</A>  <tab to=T><TD> 42717<BR><TD> List of Association of Software Professionals Directory
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="atamnesa.txt">atamnesa.txt</A>  <tab to=T><TD> 2595<BR><TD> Hey! These IBM ATs have batteries inside and they're failing!
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="auping.asc">auping.asc</A>  <tab to=T><TD> 15046<BR><TD> Making the move to Modula 2 by J.V. Auping and Chis Johnston
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="author.lst">author.lst</A>  <tab to=T><TD> 96222<BR><TD> A List of Email addresses of 255 Reachable MS-DOS shareware and PD authors (December 17, 1995)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="autpub.frm">autpub.frm</A>  <tab to=T><TD> 5138<BR><TD> Application to Join the Association of Software Professionals
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="autstd.txt">autstd.txt</A>  <tab to=T><TD> 13029<BR><TD> Association of Software Professionals Membership Requirements
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="award.txt">award.txt</A>  <tab to=T><TD> 2346<BR><TD> Award BIOS Drive Type Table
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ayers.lst">ayers.lst</A>  <tab to=T><TD> 29009<BR><TD> An Object-Oriented Logic Simulator by Kenneth E. Ayers
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="babel92a.txt">babel92a.txt</A>  <tab to=T><TD> 79153<BR><TD> Babel: A Listing of Computer Oriented Abbreviations and Acronyms by Irving Kind, 1989-1992
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="babel94a.txt">babel94a.txt</A>  <tab to=T><TD> 105377<BR><TD> BABEL: A Glossary of Computer Oriented Abbreviations and Acronyms by Irving Kind Version 94A (1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="backdoor.txt">backdoor.txt</A>  <tab to=T><TD> 12384<BR><TD> Collection of Back Doors to computer games, by George Knochel
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bartle-m">bartle-m</A>  <tab to=T><TD> 450025<BR><TD> Interactive Multi-User Computer Games, a Report by Richard Bartle, 1990
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="basunix.hac">basunix.hac</A>  <tab to=T><TD> 15360<BR><TD> Basic UNIX Use by Lord Lawless
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bat&amp;conf.txt">bat&conf.txt</A>  <tab to=T><TD> 7401<BR><TD> Tricks to Use with Batch Files
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="batch.txt">batch.txt</A>  <tab to=T><TD> 51183<BR><TD> Batch Files for Efficiency: Getting Real Work Done
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="battery.txt">battery.txt</A>  <tab to=T><TD> 26055<BR><TD> Rechargeable Batteries and Laptop Computers
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bauer.lst">bauer.lst</A>  <tab to=T><TD> 10217<BR><TD> Optimizing in a Parallel Environment by Barr E. Bauer (199)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bb">bb</A>  <tab to=T><TD> 12057<BR><TD> Beta Bits by Tim Conner, Jr. (1986)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bbsnoise.txt">bbsnoise.txt</A>  <tab to=T><TD> 3251<BR><TD> Your System Has Noise, by Bill Noel
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="begunix.txt">begunix.txt</A>  <tab to=T><TD> 337256<BR><TD> A Beginner's Guide to UNIX, from the Denver Office (September 16, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="being.txt">being.txt</A>  <tab to=T><TD> 38959<BR><TD> Being in Nothingness: Virtual Reality and the Pioneers of Cyberspace, by John Perry Barlow
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="best.cps">best.cps</A>  <tab to=T><TD> 11430<BR><TD> Get the Best out of JRCOMM and your DUALST 14.4kbps on your Amiga, from The Spirit (May 19, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bev105.res">bev105.res</A>  <tab to=T><TD> 10421<BR><TD> The Hack Report Volume 2, Number 3 (March 7, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="biblio.lst">biblio.lst</A>  <tab to=T><TD> 28958<BR><TD> Bibliography of PC Interrupt Fuctions by Ralf Brown (February 11, 1996)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bibliog.txt">bibliog.txt</A>  <tab to=T><TD> 24448<BR><TD> Laptop and Portable Computer Books
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bill">bill</A>  <tab to=T><TD> 8784<BR><TD> Bill Gates Interview from PC Magazine
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bill1035.pro">bill1035.pro</A>  <tab to=T><TD> 16647<BR><TD> Description and Call to Arms on H.R. 1035
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bios1215.man">bios1215.man</A>  <tab to=T><TD> 4123<BR><TD> AMI 286 and 386 BIOS New Release Notes (December 15, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bios225.man">bios225.man</A>  <tab to=T><TD> 6288<BR><TD> AMI 286 and 386 BIOS Release Notes (February 25, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bios330.man">bios330.man</A>  <tab to=T><TD> 4264<BR><TD> AMI 286 and 386 BIOS Release Notes (March 30, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="biprint.txt">biprint.txt</A>  <tab to=T><TD> 9485<BR><TD> Making your PC Parallel Port Bi-Directional by Mark F. Bower (IBM PC) ((July 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bitsbaud.txt">bitsbaud.txt</A>  <tab to=T><TD> 10112<BR><TD>  Bits, Baud Rate, and BPS: Taking the Mystery Out of Modem Speeds, by Michael A. Banks
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="blt6">blt6</A>  <tab to=T><TD> 21816<BR><TD> Techniques for Off-Line Mail Reading, by Robert Dionne (May 6, 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="blum.lst">blum.lst</A>  <tab to=T><TD> 18024<BR><TD> Bidirectional Associative Memory Systems in C++, by Adam Blum
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="boost.txt">boost.txt</A>  <tab to=T><TD> 1670<BR><TD> An Audio Booster on the Amiga 500, by Chucky of Sargon
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bootfromdf1.txt">bootfromdf1.txt</A>  <tab to=T><TD> 6757<BR><TD> Saving DF0: by Booting up from DF1: by Les Ayling
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bowling.asc">bowling.asc</A>  <tab to=T><TD> 11641<BR><TD> Real-Time Modeling with MS-DOS by David Bowling
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bradbery.asc">bradbery.asc</A>  <tab to=T><TD> 12901<BR><TD> Porting Fortran Programs from Minis to PCS, by John L. Bradberry
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bright.lst">bright.lst</A>  <tab to=T><TD> 3200<BR><TD> Getting a Handle on Virtual Memory, by Walter Bright
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="bugrep.txt">bugrep.txt</A>  <tab to=T><TD> 1582<BR><TD> Bug Report Form for PKWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="buildit.doc">buildit.doc</A>  <tab to=T><TD> 59591<BR><TD> Building an IBM Compatible, or How to be a Real Clone, by DJ Elliott (January 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="buildit.txt">buildit.txt</A>  <tab to=T><TD> 33024<BR><TD> The Obese Agnus: The New 500 Board and Other Recent Experiences by Andrew WIlson (July 23, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="buy386">buy386</A>  <tab to=T><TD> 7996<BR><TD> The Developer's Guide to Buying a 386
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="buyguide.txt">buyguide.txt</A>  <tab to=T><TD> 25636<BR><TD> PC Gaming Sound Cards: A Buyer's Guide v0.34 by Dave Masten (November 4, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="c64topc.txt">c64topc.txt</A>  <tab to=T><TD> 5646<BR><TD> How to Connect a Commodore 64 Compatible Printer to an IBM PC Compatible Computer (March, 1995)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="cache.txt">cache.txt</A>  <tab to=T><TD> 5795<BR><TD> Disabling Write Caching in DOS 6
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="carriers.pro">carriers.pro</A>  <tab to=T><TD> 6100<BR><TD> Comparison of different Long Distance Carrier performance
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="cart.txt">cart.txt</A>  <tab to=T><TD> 8192<BR><TD> Turning an Atari ST's Cartridge Port into a Read/Write Port
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="cascade.txt">cascade.txt</A>  <tab to=T><TD> 6784<BR><TD> Information from Cascade Electronics about Being Ripped Off
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="caution.txt">caution.txt</A>  <tab to=T><TD> 4613<BR><TD> Doublespace in DOS 6
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="cbm_dead.txt">cbm_dead.txt</A>  <tab to=T><TD> 2610<BR><TD> Eulogy on Commodore as it Goes Under (From Down Under)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="cd-rom">cd-rom</A>  <tab to=T><TD> 93046<BR><TD> An Introduction to CD-ROM Technolgy by Andy Poggio (March 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="chaos.txt">chaos.txt</A>  <tab to=T><TD> 2432<BR><TD> Chaos, Strange Attractors and BrainMaker Plots
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="cheap144disk.txt">cheap144disk.txt</A>  <tab to=T><TD> 2996<BR><TD> Making a Cheap 1.44mb Disk!
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="cheats">cheats</A>  <tab to=T><TD> 40275<BR><TD> A Very Large Collection of Amiga Cheat Codes
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="cleankey.txt">cleankey.txt</A>  <tab to=T><TD> 9856<BR><TD> How to Clean the IBM PC Keyboard by David R. Bivens
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="clinton.sgi">clinton.sgi</A>  <tab to=T><TD> 38608<BR><TD> Remarks by the President and Vice President to Silicon Graphics Employees, Feb. 22, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="coemail">coemail</A>  <tab to=T><TD> 12431<BR><TD> Formulating A Company Policy on Access to and Use and Disclosure of Electronic Mail on Company Computer Systems, by the Electronic Mail Association, October 22, 1990
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="colors.32k">colors.32k</A>  <tab to=T><TD> 9679<BR><TD> Getting an Atari ST to Display 32,768 Colors by Barry orlando (September 9, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="colr.txt">colr.txt</A>  <tab to=T><TD> 8448<BR><TD> Guidelines for Effective Color Terminal Usage, from Tektronix
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="comdefs.hum">comdefs.hum</A>  <tab to=T><TD> 5121<BR><TD> Grab-Bag of Geeky and General Humor
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="comlpt.pro">comlpt.pro</A>  <tab to=T><TD> 4175<BR><TD> An Overview of PC Hardware's LPT/COM/IRQs
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="compdev.txt">compdev.txt</A>  <tab to=T><TD> 12301<BR><TD> Some Thoughts on the Development of Personal Computers by Duane Bristow
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="comphorror.hum">comphorror.hum</A>  <tab to=T><TD> 164912<BR><TD> A Fantastic Collection of Computer Horror Stories
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="compiler.tut">compiler.tut</A>  <tab to=T><TD> 8576<BR><TD> Compilers and How They Work: An Overview, by Lou Morgan
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="compuser">compuser</A>  <tab to=T><TD> 9572<BR><TD> The Gospel according to CompuServe! (Their position)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="conclus.txt">conclus.txt</A>  <tab to=T><TD> 17859<BR><TD> The Conclusion of the Courts in the INSLAW Software Case, January, 1992
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="config.txt">config.txt</A>  <tab to=T><TD> 34499<BR><TD> Your CONFIG.SYS and AUTOEXEC.BAT by Barry Simon, 1986
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="convmem.txt">convmem.txt</A>  <tab to=T><TD> 1078<BR><TD> JZig's Guide to Freeing Conventional Memory (On a PC)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="copyprot.pro">copyprot.pro</A>  <tab to=T><TD> 11392<BR><TD> Copy Protection: A History and Outlook
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="copyrigh.pro">copyrigh.pro</A>  <tab to=T><TD> 10880<BR><TD> Copyrighting Public Domain Programs
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="courierv34man.txt">courierv34man.txt</A>  <tab to=T><TD> 346655<BR><TD> The Courier V.34 Manual, by U.S. Robotics (1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="cpsranno">cpsranno</A>  <tab to=T><TD> 2259<BR><TD> Upcoming Conventions of Computers, privacy and Freedom (1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="cpucmp14.txt">cpucmp14.txt</A>  <tab to=T><TD> 31839<BR><TD> Performance Comparison: Intel 386DX, Intel RapidCAD, C&T 38600DX, Cyrix 486DLC by Norbert Juffa
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="crtstuff.txt">crtstuff.txt</A>  <tab to=T><TD> 51493<BR><TD> The Quest for the Ultimate Display System by Steve Gibson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="defrag.txt">defrag.txt</A>  <tab to=T><TD> 2291<BR><TD> Defragmenting a Doublespace Drive in DOS 6
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="designer.txt">designer.txt</A>  <tab to=T><TD> 9653<BR><TD> Sapphire Designer Notes, by Tim Campbell
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="diagnose.txt">diagnose.txt</A>  <tab to=T><TD> 18306<BR><TD> An introduction to Troubleshooting your IBM PC by Jerry Schneider of the Capital PC User Group
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="diagrams.txt">diagrams.txt</A>  <tab to=T><TD> 36835<BR><TD> Listing of Different Drives and Controllers for TheRef
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="disks1">disks1</A>  <tab to=T><TD> 15882<BR><TD> The Technology of Magnetic Disk Storage by Steve Gibson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="disks2">disks2</A>  <tab to=T><TD> 16889<BR><TD> A Hard Disk Drive for Steve's Dream Machine by Steve Gibson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="disks3">disks3</A>  <tab to=T><TD> 28492<BR><TD> The Logical Structure, Organization and Management of Hard Disk Drives by Steve Gibson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="dma.asc">dma.asc</A>  <tab to=T><TD> 18432<BR><TD> DMA Techniques for Personal Computer Data Acquisition
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="docwaste.txt">docwaste.txt</A>  <tab to=T><TD> 1033<BR><TD> George Gutman's Call for lack of spaces in DOC files
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="dodont.txt">dodont.txt</A>  <tab to=T><TD> 12638<BR><TD> How To Get The Most Out of Your New PC
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="dos-user.s-g">dos-user.s-g</A>  <tab to=T><TD> 3605<BR><TD> The PC User's Guide to UNIX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="dos6tips.txt">dos6tips.txt</A>  <tab to=T><TD> 1957<BR><TD> DOS 6 Tips and Tricks: Review
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="dos_err.txt">dos_err.txt</A>  <tab to=T><TD> 3456<BR><TD> Dos 2.0 Has Problems with Redirection of I/O
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="doshist.txt">doshist.txt</A>  <tab to=T><TD> 41430<BR><TD> The Development of DOS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="dosmem.txt">dosmem.txt</A>  <tab to=T><TD> 13205<BR><TD> The PC Memory Management Overview
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="dosmnual.txt">dosmnual.txt</A>  <tab to=T><TD> 42543<BR><TD> PC/MS-DOS: The Essentials, by George Campbell
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="drives.txt">drives.txt</A>  <tab to=T><TD> 5060<BR><TD> Driving Us Crazy, but For a Reason (Hard Drive Overview) by Alan Brenden
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="dvinter.1st">dvinter.1st</A>  <tab to=T><TD> 8430<BR><TD> The DESQview Interrupt List, Release 90.3, 07/15/90
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="dvscript.txt">dvscript.txt</A>  <tab to=T><TD> 2432<BR><TD> Creating and Using Scripts with DESQview
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ea.iff.85">ea.iff.85</A>  <tab to=T><TD> 63215<BR><TD> EA IFF 85: The Standard for Interchange Format Files by Jerry Morrison of Electronic Arts (January 14, 1985)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="earlybst.txt">earlybst.txt</A>  <tab to=T><TD> 6529<BR><TD> Timo's Subjective Choices of the Best Public Domain and Shareware MS-DOS Early Material (September 13, 1995)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="echtutor.txt">echtutor.txt</A>  <tab to=T><TD> 17437<BR><TD> A Tutorial on the New Phenomenon of Fido Echomail
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="eight.lws">eight.lws</A>  <tab to=T><TD> 14297<BR><TD> The Adventures of Lone Wolf Scientific: The House Where Andrew.BAS lived, by Michy Peshota
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="email">email</A>  <tab to=T><TD> 21201<BR><TD> A Large Suggested Summary of Policies on Electronic Mail
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="equip.txt">equip.txt</A>  <tab to=T><TD> 45113<BR><TD> Hints on Purchasing a Laptop Computer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="errors.txt">errors.txt</A>  <tab to=T><TD> 8182<BR><TD> A List of Errors by Hard Drives Under DOS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="esdi.txt">esdi.txt</A>  <tab to=T><TD> 8326<BR><TD> Basic Installation Procedure for ESDI Drives by Ruan Ramsey (July 3, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="essays.txt">essays.txt</A>  <tab to=T><TD> 263347<BR><TD> Art in the Age of Digital Dissemination: Class Essays from an Art and Technology Course, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="execnois.txt">execnois.txt</A>  <tab to=T><TD> 3889<BR><TD> If You Are Getting Garbage On the Screen (Modem Diagnostics)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ext-ram.txt">ext-ram.txt</A>  <tab to=T><TD> 14198<BR><TD> An Extended RAM Tutorial for MS-DOS by Raymond Dunn
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="fangrev3a500">fangrev3a500</A>  <tab to=T><TD> 3372<BR><TD> Making a Faster Agnus Chip, by Hans Van Der Werf (October 30, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="faq.txt">faq.txt</A>  <tab to=T><TD> 52582<BR><TD> FAQ: OS/2 Frequently Asked Questions List: User's Edition Verison 2.0 (April 25, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="fbi.sys">fbi.sys</A>  <tab to=T><TD> 5192<BR><TD> Summary of FBI Computer Systems, by Ralph Harvey of Full Disclosure
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="fcc.txt">fcc.txt</A>  <tab to=T><TD> 12545<BR><TD> Computer and Software News Part 1 by Tim Elmer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="fd_ref42.lan">fd_ref42.lan</A>  <tab to=T><TD> 36874<BR><TD> A Large Floppy Drive Directory Version 4.2 (October 1, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="fd_ref42.por">fd_ref42.por</A>  <tab to=T><TD> 23264<BR><TD> Floppy Drive Directory by TheRef Version 4.2 (October 1, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="fdd">fdd</A>  <tab to=T><TD> 11750<BR><TD> teria, by Bud Leroy
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="fileid.txt">fileid.txt</A>  <tab to=T><TD> 18022<BR><TD> Information on Why You Should Use FILE_ID.DIZ
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="filename.txt">filename.txt</A>  <tab to=T><TD> 21870<BR><TD> File Names and Extensions: The Keys to the Kingdom
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="flop.txt">flop.txt</A>  <tab to=T><TD> 3194<BR><TD> Using Doublespace on Floppy Disks in DOS 6
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="floppies.txt">floppies.txt</A>  <tab to=T><TD> 15744<BR><TD> Everything You've Ever Wanted to Know Abut Floppy Disks by Ted Jensen
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="format.txt">format.txt</A>  <tab to=T><TD> 2510<BR><TD> Photo/Digital Specifications for GIF Files
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="forums.lst">forums.lst</A>  <tab to=T><TD> 20327<BR><TD> A Complete List of Public Forums on Online Services by Ed Girou of the CompuServe Practice Forum (June 1, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="freedom.pro">freedom.pro</A>  <tab to=T><TD> 6068<BR><TD> Must We Declare an Electronic Declaration of Independence
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="freenet.cap">freenet.cap</A>  <tab to=T><TD> 13691<BR><TD> The Concept of Community Computing
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="fricc">fricc</A>  <tab to=T><TD> 2296<BR><TD> The FRICC Policy on Interocnnectivity and Resource Sharing
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ftp2uk23.inf">ftp2uk23.inf</A>  <tab to=T><TD> 71087<BR><TD> Notes for PC/MSDOS users at UK JANET sites (April 27, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ftxt">ftxt</A>  <tab to=T><TD> 19014<BR><TD> Information on FTXT: A Text Standard for IFF Files from Steve Shaw and Jerry Morrison, Electronic Arts (November 15, 1985)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="fyi-8">fyi-8</A>  <tab to=T><TD> 253367<BR><TD> The Site Security Handbook, a guideline for computer systems, July 1991
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="galileo.txt">galileo.txt</A>  <tab to=T><TD> 93697<BR><TD> The STS-34 Press Kit (Exploratory Spacecraft)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="gameport.inf">gameport.inf</A>  <tab to=T><TD> 3231<BR><TD> Specifications for the IBM/PC Game Port Connector (April 6, 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="genderol">genderol</A>  <tab to=T><TD> 25452<BR><TD> Gender Issues in Online Communications by Hoai-An Truong, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="genlock.txt">genlock.txt</A>  <tab to=T><TD> 19649<BR><TD> The Genlock Circuit Operation Description
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="gfxhints.txt">gfxhints.txt</A>  <tab to=T><TD> 30197<BR><TD> Some Hints on Improving your Computer Graphics
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="gifstd.txt">gifstd.txt</A>  <tab to=T><TD> 31874<BR><TD> The GIF Specification
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="glossary.lst">glossary.lst</A>  <tab to=T><TD> 35647<BR><TD> Glossary of Computer Terms
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="glossary.txt">glossary.txt</A>  <tab to=T><TD> 3311<BR><TD> Yet Another Computer Glossary
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="gnu">gnu</A>  <tab to=T><TD> 23949<BR><TD> The GNU Manifesto by Richard Stallman (1985)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hack_pom.txt">hack_pom.txt</A>  <tab to=T><TD> 2215<BR><TD> Casey at the Byte (Parody of Casey at the Bat)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hacktest.txt">hacktest.txt</A>  <tab to=T><TD> 8497<BR><TD> The Hacker Test Version 3.0:  Another 'Adventure in Software' from SuperNova Software by Rich 'Crash' Lewis, Jr. (1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hallfame.txt">hallfame.txt</A>  <tab to=T><TD> 100594<BR><TD> The Freeware Hall of Fame by Rey Barry (June, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="handles.txt">handles.txt</A>  <tab to=T><TD> 33215<BR><TD> The Joy of Handles (or, Everything You Always Wanted to Know About Me but Have No Right to Ask)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hayes.txt">hayes.txt</A>  <tab to=T><TD> 322645<BR><TD> Technical Reference for Hayes Modem Users, Version 1.0, November 1990
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hd.txt">hd.txt</A>  <tab to=T><TD> 28948<BR><TD> Hard Disks: The Essential Accessory
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hd_mfr41.dir">hd_mfr41.dir</A>  <tab to=T><TD> 23897<BR><TD> Hard Disk Drive Manufacturer Directory (January 3, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hd_ref41.lan">hd_ref41.lan</A>  <tab to=T><TD> 404370<BR><TD> Hard Disk Drive Directory Version 4.1 (January 3, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hd_ref41.por">hd_ref41.por</A>  <tab to=T><TD> 309167<BR><TD> Hard Disk Drive Directory Version 4.1 (January 3, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hd_ref43.lan">hd_ref43.lan</A>  <tab to=T><TD> 692412<BR><TD> Hard Disk Drive Directory Version 4.30 (May 1, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hd_ref43.por">hd_ref43.por</A>  <tab to=T><TD> 587412<BR><TD> Hard Disk Drive Directory (May 1, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="help.txt">help.txt</A>  <tab to=T><TD> 3737<BR><TD> The DOS 6 Help File
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hint89.txt">hint89.txt</A>  <tab to=T><TD> 2945<BR><TD> Configuring Autoexec.bat and Config.Sys Files (December 1, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="history.txt">history.txt</A>  <tab to=T><TD> 17081<BR><TD> A Little PC History: Where We've Been with No Idea Where We're Going!
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hoagco.cis">hoagco.cis</A>  <tab to=T><TD> 37883<BR><TD> Transcription from Compuserve of Various Information by Hoagland Mars Mission
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hoagland.let">hoagland.let</A>  <tab to=T><TD> 29828<BR><TD> Letter from Richard Hoagland (December 1, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="honey.txt">honey.txt</A>  <tab to=T><TD> 4144<BR><TD> Honey, Can the Computer Do This? By Wayne Garrison
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="how2mnp.txt">how2mnp.txt</A>  <tab to=T><TD> 30321<BR><TD> How to do MNP Modem Protocol
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="hsdiag.res">hsdiag.res</A>  <tab to=T><TD> 6557<BR><TD> The Hack Report Volume 2, Number 5 by Lee Jackson (April 10, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="i4004.txt">i4004.txt</A>  <tab to=T><TD> 3213<BR><TD> Before the Great Dark Cloud: Information on the Intel 4004
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ibm.fu">ibm.fu</A>  <tab to=T><TD> 6757<BR><TD> OS/2 Is Still Vaporware (June 4, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="itcfree.800">itcfree.800</A>  <tab to=T><TD> 3563<BR><TD> Information on the ITCnet Toll Free Communications Network by Jack Reece
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="jadu13.rvw">jadu13.rvw</A>  <tab to=T><TD> 3983<BR><TD> REVIEW: Just Another Disk Utility Version 1.3 (October, 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="jargn10.txt">jargn10.txt</A>  <tab to=T><TD> 1128344<BR><TD> Eric Raymond's Jargon File, Version 2.9.10, July 1992
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="jrquiet.txt">jrquiet.txt</A>  <tab to=T><TD> 468<BR><TD> Silencing the pesky IBM PCJr hard drive
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="karpov.pro">karpov.pro</A>  <tab to=T><TD> 6120<BR><TD> Karpov vs. DEEP THOUGHT: The Overview, by Darren Bedwell
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="kcah-1">kcah-1</A>  <tab to=T><TD> 32102<BR><TD> KCAH Volume 1
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="kcah-2">kcah-2</A>  <tab to=T><TD> 17440<BR><TD> KCAH Volume 2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="kildall.txt">kildall.txt</A>  <tab to=T><TD> 11552<BR><TD> The Gary Kildall Legacy, by Sol Libes (1996)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="killer.pro">killer.pro</A>  <tab to=T><TD> 3056<BR><TD> Killer DOS Stalks Software
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="language.lis">language.lis</A>  <tab to=T><TD> 390367<BR><TD> The Language List, Version 1.9, Jan. 13, 1993: Collected information on about 2000 computer languages, past and present
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="licence">licence</A>  <tab to=T><TD> 12488<BR><TD> The GNU General Public License Version 1 (February 1989)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="lrplan.txt">lrplan.txt</A>  <tab to=T><TD> 2924<BR><TD> The Long Range Plans of the University of Pittsburgh for their Computing Facilities
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mac2tel.v2.txt">mac2tel.v2.txt</A>  <tab to=T><TD> 8864<BR><TD> How to Get Digitized Macintosh Sounds Into a Modem
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mac_oscillators.txt">mac_oscillators.txt</A>  <tab to=T><TD> 28179<BR><TD> A Macintosh Crystal Oscillator Speedup, by Marc Schrier (April, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="maccrack.txt">maccrack.txt</A>  <tab to=T><TD> 7038<BR><TD> A Collection of Macintosh Unprotect Schemes
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mactricks.txt">mactricks.txt</A>  <tab to=T><TD> 5942<BR><TD> Some Mac Tricks for Novices by Steve J. McAllister (February 28, 1995)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mailordr.pro">mailordr.pro</A>  <tab to=T><TD> 2825<BR><TD> Really Angry Complaining Letter
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="manners.txt">manners.txt</A>  <tab to=T><TD> 7464<BR><TD> Computer Etiquitte, by Mel North
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="manyhint.txt">manyhint.txt</A>  <tab to=T><TD> 15640<BR><TD> ATARI ST Guaranteed Cheat Codes and Strategies
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="may-bust.txt">may-bust.txt</A>  <tab to=T><TD> 6617<BR><TD> Busted! By the Leviathan
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mdic150.txt">mdic150.txt</A>  <tab to=T><TD> 136696<BR><TD> The Modem Dictionary, by R. Scottt Perry, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mdic200.txt">mdic200.txt</A>  <tab to=T><TD> 155549<BR><TD> The Modem Dictionary Version 2.0 by R. Scott Perry (1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mism16.hac">mism16.hac</A>  <tab to=T><TD> 28288<BR><TD> The Kromery Converter/Free Electricity by John Bedini, Eike Mueller, and Tom Bearden
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mism18.hac">mism18.hac</A>  <tab to=T><TD> 42496<BR><TD> The New Tesla Electromagnetics and The Secrets of Free Electrical Energy (Part 1) by T. E. Bearden
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mnemonic.txt">mnemonic.txt</A>  <tab to=T><TD> 6705<BR><TD> An interesting Collection of Helpful Mnemonics
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="modem.txt">modem.txt</A>  <tab to=T><TD> 2016<BR><TD> Some Modem Specific Information: AT Command List
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="modemlif.hac">modemlif.hac</A>  <tab to=T><TD> 11074<BR><TD> The Modem Life: Is it Really Worth it? By The Nomad
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="modprobs.txt">modprobs.txt</A>  <tab to=T><TD> 13312<BR><TD> Modem Communication Problems by Graham Newton
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="morph.txt">morph.txt</A>  <tab to=T><TD> 9597<BR><TD> Several People Discuss that new Morphing Technology, 1991
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mrdos1.txt">mrdos1.txt</A>  <tab to=T><TD> 9381<BR><TD> If You Have Never Used Computers Before...  An Introduction
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mrdos2.txt">mrdos2.txt</A>  <tab to=T><TD> 5753<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part II)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mrdos3.txt">mrdos3.txt</A>  <tab to=T><TD> 8562<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part III)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mrdos4.txt">mrdos4.txt</A>  <tab to=T><TD> 5527<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part IV)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mrdos5.txt">mrdos5.txt</A>  <tab to=T><TD> 8148<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part V)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mrdos6.txt">mrdos6.txt</A>  <tab to=T><TD> 11242<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part VI)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="mrdos7.txt">mrdos7.txt</A>  <tab to=T><TD> 10060<BR><TD> If You Have Never Used Computers Before...  An Introduction (Part VII)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="msbbs.txt">msbbs.txt</A>  <tab to=T><TD> 35293<BR><TD> Microsoft Windows Version 3.1 Windows Driver Library (December 9, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="msdos.txt">msdos.txt</A>  <tab to=T><TD> 8827<BR><TD> Some MS-DOS Specific Information
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="muck.txt">muck.txt</A>  <tab to=T><TD> 12965<BR><TD> The MUCK (Multi User Coding Kludge) Commands List
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="muck_edi.hel">muck_edi.hel</A>  <tab to=T><TD> 1457<BR><TD> The MUCK MUF (Programming Language) Reference
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="muf161.txt">muf161.txt</A>  <tab to=T><TD> 3044<BR><TD> The Fabulous Microsoft Undocumented Features Volume 1 Number 6
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="net_horm.txt">net_horm.txt</A>  <tab to=T><TD> 19189<BR><TD> Net Hormones: Infection Control assuming Cooperation among Computers by David Stodolsky
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="newkbdhack">newkbdhack</A>  <tab to=T><TD> 18258<BR><TD> A New Keyboard Hack for the Amiga, by Dana Peters
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="newstu.pro">newstu.pro</A>  <tab to=T><TD> 4117<BR><TD> PC New Technology Digest
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="noise.txt">noise.txt</A>  <tab to=T><TD> 7717<BR><TD> The Modem Noise Killer, Alpha Version
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="noise_1.txt">noise_1.txt</A>  <tab to=T><TD> 6020<BR><TD> Creating a Modem Noise Killer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ohs-rcs.txt">ohs-rcs.txt</A>  <tab to=T><TD> 58850<BR><TD> Information on the Orbital Manuvering System
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="opcodes.lst">opcodes.lst</A>  <tab to=T><TD> 32788<BR><TD> Undocumented Instructions and Documented Instruction of Processors, by Potemkin's Hackers Group (October 23, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="opt_wagr.txt">opt_wagr.txt</A>  <tab to=T><TD> 8561<BR><TD> Mathematic Formulas: Optimal Wagering by Michael Hall, 1991
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="org-anal">org-anal</A>  <tab to=T><TD> 67829<BR><TD> Organizational Analysis in Computer Science by Rob Kling (June, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="p6fact.txt">p6fact.txt</A>  <tab to=T><TD> 1921<BR><TD> An overview of the P6 Processor
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="paging_g.ame">paging_g.ame</A>  <tab to=T><TD> 4275<BR><TD> The Paging Game, by Jeff Berryman describing how Memory Paging Works
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="paranoia.pro">paranoia.pro</A>  <tab to=T><TD> 4499<BR><TD> Paranoia Runs Through Computer Community, by John Dvorak
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="password.txt">password.txt</A>  <tab to=T><TD> 11460<BR><TD> Some Very Good Advice about Choosing a Password
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="pause.txt">pause.txt</A>  <tab to=T><TD> 1858<BR><TD> Making a pause on the 68000, by Chucky of Sargon
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="pc1hrdsk.add">pc1hrdsk.add</A>  <tab to=T><TD> 4388<BR><TD> Some Solutions for Old PC's and Hard Disks by Paul Vojta (February 28, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="pc869kb.txt">pc869kb.txt</A>  <tab to=T><TD> 9847<BR><TD> What is High Memory, and Why do I care, and How Can I Use It? By Cy Atkinson
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="pcg102b.txt">pcg102b.txt</A>  <tab to=T><TD> 15745<BR><TD> The PC Gazette Volume 1.02 (Section b) (April, 1986)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="pcgnet">pcgnet</A>  <tab to=T><TD> 20716<BR><TD> The I/O Port: Communications with the PC Gazette (August 21, 1986)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="pcjrmem.txt">pcjrmem.txt</A>  <tab to=T><TD> 4224<BR><TD> Altering the IBM PC-JR 128 Memory Module to 512K by David James (July 20, 1986)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="pcjrtopc.txt">pcjrtopc.txt</A>  <tab to=T><TD> 3712<BR><TD> Instructions to Convert an IBM PCjr Color Monitor to a Standard DB 9 Connector
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="pcl100.txt">pcl100.txt</A>  <tab to=T><TD> 20296<BR><TD> List of HP Printer Escape Sequences (1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="pentium.txt">pentium.txt</A>  <tab to=T><TD> 15939<BR><TD> Intel Pentium(TM) Processor Technical Backgrounder
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="perstest.txt">perstest.txt</A>  <tab to=T><TD> 9361<BR><TD> Mind Reader: Do Personality Tests Pick Out Bad Apples?
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="phoenix.txt">phoenix.txt</A>  <tab to=T><TD> 2377<BR><TD> Phoenix BIOS Drive Type Table
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="photoscn.txt">photoscn.txt</A>  <tab to=T><TD> 6901<BR><TD> Photographing TV and Computer Screen Images
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="piracy.txt">piracy.txt</A>  <tab to=T><TD> 8451<BR><TD> Software Piracy: An Alternate View, by Jim Thomas and Gordon Meyer (March 5, 199)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="pntq&amp;a.txt">pntq&a.txt</A>  <tab to=T><TD> 10377<BR><TD> The Pentium Processor Q&A, March 22, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ports.lst">ports.lst</A>  <tab to=T><TD> 128622<BR><TD> XT, AT and PS/2  I/O port addresses (November 6, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="presizer.faq">presizer.faq</A>  <tab to=T><TD> 5860<BR><TD> FAQ: The Partition Resizer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="privacy.txt">privacy.txt</A>  <tab to=T><TD> 5474<BR><TD> The Rise of the CPSR (Computer Professionals for Social Responsibility)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="qf921124.txt">qf921124.txt</A>  <tab to=T><TD> 8101<BR><TD> QFACTS: The Representation of Facts and Information
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="r4300i.txt">r4300i.txt</A>  <tab to=T><TD> 24340<BR><TD> R4300i Microprocessor Technical Backgrounder
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="raspeed.res">raspeed.res</A>  <tab to=T><TD> 4949<BR><TD> The Hack Report, File Test Results, Volume 2, Number 6, May 29, 1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="rbrown.txt">rbrown.txt</A>  <tab to=T><TD> 22307<BR><TD> A List of Public Domain/Freeware/Shareware by Ralf Brown (1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="reagen.asc">reagen.asc</A>  <tab to=T><TD> 7936<BR><TD> Ram Disk Driver for UNIX by Jeff Reagen (May 2, 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="realaq.asc">realaq.asc</A>  <tab to=T><TD> 8351<BR><TD> Real-Time Data Acquisition by Mike Bunnell and Mitch Bunnell
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="realhack.txt">realhack.txt</A>  <tab to=T><TD> 11485<BR><TD> The Meaning of "Hack" from the Jargon File
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="regan.lst">regan.lst</A>  <tab to=T><TD> 11153<BR><TD> LZW Revisited by SHawn M. Regan (January, 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="rehabots.txt">rehabots.txt</A>  <tab to=T><TD> 3290<BR><TD> Robotics for Rehabilitation from Epitomes-Physical Medicine and Rehabilitation
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="remote.asc">remote.asc</A>  <tab to=T><TD> 11486<BR><TD> Remote Connectivity for Portable Terminals Part I by Dan Troy
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="remove.ada">remove.ada</A>  <tab to=T><TD> 20668<BR><TD> One Man's Crusade to Remove Ada From the Planet
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="renaissance.txt">renaissance.txt</A>  <tab to=T><TD> 22619<BR><TD> The Electronic Renaissance: A Course in the Ether, by Ellis L. "Skip" Knox (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="replies">replies</A>  <tab to=T><TD> 79819<BR><TD> Why Do Fans Blow Out? A List of Replies (April, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="requiem.pro">requiem.pro</A>  <tab to=T><TD> 9508<BR><TD> A really whiny complaint about how users suck
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="response.txt">response.txt</A>  <tab to=T><TD> 5623<BR><TD> Why Live in the Past? (The ARC and ZIP Fight)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="rights.pro">rights.pro</A>  <tab to=T><TD> 5120<BR><TD> Copyright Information for Computer Software Hacks
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ripscrip.txt">ripscrip.txt</A>  <tab to=T><TD> 166212<BR><TD> The RIPscrip Graphics Protocol Specification (May 12, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="rm-rf">rm-rf</A>  <tab to=T><TD> 8879<BR><TD> The RM -RF Story, by Mario Wolczko (The Recovery of a UNIX System)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="rogue.man">rogue.man</A>  <tab to=T><TD> 28003<BR><TD> A Guide to the Dungeons of Doom by Michael C. Toy and Kenneth C. R. C. Arnold
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="rpgrules.txt">rpgrules.txt</A>  <tab to=T><TD> 3230<BR><TD> The Rules of Role-Playing on the Galactic Net
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="rs232.txt">rs232.txt</A>  <tab to=T><TD> 21260<BR><TD> A Practical Guide to RS-232 Interfacing, by Lawrence E. Hughes
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="scavenge.txt">scavenge.txt</A>  <tab to=T><TD> 38319<BR><TD> DOCUMENTATION: Scavenger-Dialer Version 0.61
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="script.txt">script.txt</A>  <tab to=T><TD> 12079<BR><TD> How to use uSu Script Formats, by Cyberglitch
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="scsi.txt">scsi.txt</A>  <tab to=T><TD> 9003<BR><TD> Basical installation Procedure for SCSI Drives by Ryan Ramsey (June 22, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="scsidefs.txt">scsidefs.txt</A>  <tab to=T><TD> 113040<BR><TD> An Introduction to SCSI Definitions
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="sea.txt">sea.txt</A>  <tab to=T><TD> 12928<BR><TD> SEA vs. PKWARE: Shareware Company Threatens BBS World that Gave it Life
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="secret.txt">secret.txt</A>  <tab to=T><TD> 1217<BR><TD> A Windows 3.1 Secret
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="secrets.jok">secrets.jok</A>  <tab to=T><TD> 2167<BR><TD> Users' Guide to Little-Known Facts About Computers (Humor)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="serial.txt">serial.txt</A>  <tab to=T><TD> 5207<BR><TD> Programming the Serial Port
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="share.txt">share.txt</A>  <tab to=T><TD> 55380<BR><TD> The Shareware User's Guide to Shareware, Public Domain, Freeware and Commercial Software
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="sharew.txt">sharew.txt</A>  <tab to=T><TD> 4373<BR><TD> The Definition of Shareware, by Paul Mayer, Author of GRAB Plus
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="sharewr.inf">sharewr.inf</A>  <tab to=T><TD> 5813<BR><TD> What is Shareware? By Richard Martin (January 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="smus">smus</A>  <tab to=T><TD> 47165<BR><TD> SMUS IFF Simple Musical Score by Jerry Morrison of Electronic Arts (February 5, 1986)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="softshop.txt">softshop.txt</A>  <tab to=T><TD> 63378<BR><TD> 
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="software.txt">software.txt</A>  <tab to=T><TD> 16512<BR><TD> Software for Laptop Needs: A Listing of Shareware Vendors
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="stereo.txt">stereo.txt</A>  <tab to=T><TD> 8320<BR><TD> The Atari ST 520/1040 Stereo Modification
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="stips.txt">stips.txt</A>  <tab to=T><TD> 9714<BR><TD> Submissions and Tips and Tricks for DOS Booting v1.23 by Scorpio
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="stratari">stratari</A>  <tab to=T><TD> 29583<BR><TD> People Are Talking (About Atari ST Stuff) by Joe Mirando
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="supdev.txt">supdev.txt</A>  <tab to=T><TD> 5654<BR><TD> Supported Devices for Various DPT Drivers (November 21, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="support">support</A>  <tab to=T><TD> 7873<BR><TD> Programmer's Technical Reference for MSDOS and the IBM PC Version 2.2a
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="taeis.lng">taeis.lng</A>  <tab to=T><TD> 63557<BR><TD> A Collection of Artifical Languages from the Taeis Worlds
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="taoprog.pro">taoprog.pro</A>  <tab to=T><TD> 18515<BR><TD> The Tao Of Programming, Short Version.
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="taoprogram.pro">taoprogram.pro</A>  <tab to=T><TD> 27266<BR><TD> The Tao of Programming, Translated by Geoffrey James (Formatted)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tcad">tcad</A>  <tab to=T><TD> 11547<BR><TD> Computer-Aided Design of Tesla Coils, by Toby Grotz
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec001.txt">tec001.txt</A>  <tab to=T><TD> 1803<BR><TD> STAC Technical Note: Third party defragmentation programs and STACKER 2.0 and 1.x (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec002.txt">tec002.txt</A>  <tab to=T><TD> 4131<BR><TD> STAC Technical Note: QEMM386 and OPTIMIZE (September 18, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec004.txt">tec004.txt</A>  <tab to=T><TD> 1396<BR><TD> STAC Technical Note: Backing up STACKER drives (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec005.txt">tec005.txt</A>  <tab to=T><TD> 2564<BR><TD> STAC Technical Note: Miscellaneous STACKER Notes (May 24, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec006.txt">tec006.txt</A>  <tab to=T><TD> 2403<BR><TD> STAC Technical Note: LoadHI Information with Stacker (July 9, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec007.txt">tec007.txt</A>  <tab to=T><TD> 1886<BR><TD> STAC Technical Note: Removing STACKER (May 24, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec008.txt">tec008.txt</A>  <tab to=T><TD> 3285<BR><TD> STAC Technical Note: Stacker Coprocessor Installation Checklist (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec009.txt">tec009.txt</A>  <tab to=T><TD> 1572<BR><TD> STAC Technical Note: Stacker and Disk Cache Programs (May 24, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec010.txt">tec010.txt</A>  <tab to=T><TD> 2476<BR><TD> STAC Technical Note: Performance Differences Between Stacker Software and CoProcessor Versions (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec011.txt">tec011.txt</A>  <tab to=T><TD> 2355<BR><TD> STAC Technical Note: Scheck and Stacker Space Reporting (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec012.txt">tec012.txt</A>  <tab to=T><TD> 2073<BR><TD> STAC Technical Note: DR DOS and STACKER (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec013.txt">tec013.txt</A>  <tab to=T><TD> 2131<BR><TD> STAC Technical Note: Miscellaneous DOS and BOOT Issues with STACKER (June 26, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec014.txt">tec014.txt</A>  <tab to=T><TD> 4864<BR><TD> STAC Technical Note: DOS5 Information (June 18, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec015.txt">tec015.txt</A>  <tab to=T><TD> 2674<BR><TD> STAC Technical Note: DOS 5.0 Information (June 28, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec016.txt">tec016.txt</A>  <tab to=T><TD> 4129<BR><TD> STAC Technical Note: QEMM386 OPTIMIZE and STACKER Version 1.x (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec017.txt">tec017.txt</A>  <tab to=T><TD> 3907<BR><TD> STAC Technical Note: MAXIMIZE by Qualitas Corporation (September 6, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec018.txt">tec018.txt</A>  <tab to=T><TD> 3214<BR><TD> STAC Technical Note: Windows 3.0 in Enhanced Mode and Stacker (September 18, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec019.txt">tec019.txt</A>  <tab to=T><TD> 1266<BR><TD> STAC Technical Note: Finding SSWAPed Drives in C
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec020.txt">tec020.txt</A>  <tab to=T><TD> 2002<BR><TD> STAC Technical Note: Installing STACKER on an IBM PS/1 (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec021.txt">tec021.txt</A>  <tab to=T><TD> 5550<BR><TD> STAC Technical Note: Installing 386MAX and BlueMAX on a STACKER System
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec022.txt">tec022.txt</A>  <tab to=T><TD> 5341<BR><TD> STAC Technical Note: Using Stacker and QEMM by Robert Ngan
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec023.txt">tec023.txt</A>  <tab to=T><TD> 9441<BR><TD> STAC Technical Note: Upgrading to DR DOS 6.0 with STACKER Installed (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec024.txt">tec024.txt</A>  <tab to=T><TD> 2383<BR><TD> STAC Technical Note: STACKER 2.0 Device Driver Memory Requirements (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec026.txt">tec026.txt</A>  <tab to=T><TD> 1818<BR><TD> STAC Technical Note: Stacking the Harddrive on a Floppyless Notebook Computer (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec027.txt">tec027.txt</A>  <tab to=T><TD> 2932<BR><TD> STAC Technical Note: I Stacked my PS/1 Before I reconfigured the Way It Starts, Now What? (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec028.txt">tec028.txt</A>  <tab to=T><TD> 1812<BR><TD> STAC Technical Note: Stacking the Hard RAM Drive of a Palmtop (February 20, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec029.txt">tec029.txt</A>  <tab to=T><TD> 3861<BR><TD> STAC Technical Note: Stacking Up the HP 95LX Palmtop Computer (March 6, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tec030.txt">tec030.txt</A>  <tab to=T><TD> 2963<BR><TD> STAC Technical Note: QEMM386 Optimize and Stacker 2.0 (March 6, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="technom.ads">technom.ads</A>  <tab to=T><TD> 3145<BR><TD> An Archive of Writings and Files Related to Steven K. Roberts, the Techno-Nomad
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="techtip.txt">techtip.txt</A>  <tab to=T><TD> 4090<BR><TD> Some Tech Tips from the Micropolis BBS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="teletype.his">teletype.his</A>  <tab to=T><TD> 28523<BR><TD> History of Morkrum Company - Ancestor of Teletype Corporation
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="the_dark.er_">the_dark.er_</A>  <tab to=T><TD> 448695<BR><TD> Extremely Large Ranma 1/2 Fan Fiction Story
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="theory1.hac">theory1.hac</A>  <tab to=T><TD> 28850<BR><TD> Wireless Transmission of Power: Resonating Planet Earth by Toby Grotz
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="theory2.hac">theory2.hac</A>  <tab to=T><TD> 3560<BR><TD> Tesla Coil Theory Information
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tips.txt">tips.txt</A>  <tab to=T><TD> 42380<BR><TD> Computing Tips, Tricks and Traps plus Comments Regarding Environmentally Safe Computing
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tips0792.asc">tips0792.asc</A>  <tab to=T><TD> 25771<BR><TD> TIPS by Craig S. Stevenson of The Bertha BBS (July 1, 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tjhelp.txt">tjhelp.txt</A>  <tab to=T><TD> 7637<BR><TD> Tips and Tricks fromT & J Software (August 7, 1994)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="travel.txt">travel.txt</A>  <tab to=T><TD> 18107<BR><TD> Information on Travelling with a Laptop Computer
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="trivia.1">trivia.1</A>  <tab to=T><TD> 13294<BR><TD> Questions and Answers from the Second Computer Bowl, at the Boston Computer Museum (April 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="trivia.2">trivia.2</A>  <tab to=T><TD> 14616<BR><TD> Questions from the Third Annual Computer Bowl in San Jose (April 26, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="trojan.pro">trojan.pro</A>  <tab to=T><TD> 13312<BR><TD> Mark Garvin explains how a trojan horse got him
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="tsprog.inf">tsprog.inf</A>  <tab to=T><TD> 10957<BR><TD> A List of Program and Other Packages by Timo Salmi (February 25, 1996)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="twxhist.txt">twxhist.txt</A>  <tab to=T><TD> 16883<BR><TD> A History of Telex and Fax (Very Complete)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="udcnew.txt">udcnew.txt</A>  <tab to=T><TD> 46480<BR><TD> The Universal Data Converter, by Hannibal Lecter of Delamo Labs, Inc.
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="udp.txt">udp.txt</A>  <tab to=T><TD> 2887<BR><TD> Installing a DPT Controller with User-Definable Parameters
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ultra.txt">ultra.txt</A>  <tab to=T><TD> 10212<BR><TD> Gravis Ultrasound Tech Specs: The Unofficial Dox, by Tran of Renaissance and Joshua Jensen (December 1992)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="unix.fun">unix.fun</A>  <tab to=T><TD> 4401<BR><TD> Collection of Funny Commands You can Enter in UNIX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="unixsec.txt">unixsec.txt</A>  <tab to=T><TD> 157190<BR><TD> Improving the Security of your UNIX System by David Curry (April 1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="unravel.txt">unravel.txt</A>  <tab to=T><TD> 27343<BR><TD> The Unraveling Universe from Time Magazine
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ut.sof">ut.sof</A>  <tab to=T><TD> 7939<BR><TD> The University of Toronto Acceptable Use Policy on Computer Software
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="v42bis.txt">v42bis.txt</A>  <tab to=T><TD> 12106<BR><TD> A Layman's Explanation of High Speed Modems, by Stan Simmons April 4, 1991
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="vcbackup.txt">vcbackup.txt</A>  <tab to=T><TD> 8064<BR><TD> How to Back-up your PC VisiCalc disk
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="vendlist.txt">vendlist.txt</A>  <tab to=T><TD> 3703229<BR><TD> The Vendor Phone List and Other Miscellaneous Info by Dan Kyburz (July 18, 1996)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="vendors">vendors</A>  <tab to=T><TD> 3275<BR><TD> VENDORS: Mapping of the First Three Bytes of an IEEE Mac Address Into Venfor's Name
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="vguide.txt">vguide.txt</A>  <tab to=T><TD> 118853<BR><TD> A Disk Vendor's Guide, by the Association of Shareware Professionals (March 15, 1993)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="vidtrix.txt">vidtrix.txt</A>  <tab to=T><TD> 3800<BR><TD> Tricks You Can Do With Your Video Camera
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="viewers.txt">viewers.txt</A>  <tab to=T><TD> 11245<BR><TD> Information on Different Picture Viewing Programs (October 5, 1991)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="visio.txt">visio.txt</A>  <tab to=T><TD> 8234<BR><TD> Visiophones: French High Tech Security by Pierre Marie Bourniquel
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="vrthea.art">vrthea.art</A>  <tab to=T><TD> 10306<BR><TD> Bringing Theatre into Virtual Worlds
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="wacky">wacky</A>  <tab to=T><TD> 3042<BR><TD> Introduction File for the FidoNet WackyNet Network
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="weird2_1.txt">weird2_1.txt</A>  <tab to=T><TD> 101705<BR><TD> The high weirdness by email v2.1
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="weirdstf.ans">weirdstf.ans</A>  <tab to=T><TD> 33410<BR><TD> The Weird Stuff Source List, 08/01/1993
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="weiskamp.lst">weiskamp.lst</A>  <tab to=T><TD> 15441<BR><TD> An Icon Editor by Keith Weiskamp and Loren Heiny
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="wellman.hac">wellman.hac</A>  <tab to=T><TD> 77936<BR><TD> The Complete Guide to the WELL (Whole Earth 'Lectronic Link)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="whatis.txt">whatis.txt</A>  <tab to=T><TD> 4274<BR><TD> What Is a Modem? (Introduction File)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="win31.txt">win31.txt</A>  <tab to=T><TD> 19333<BR><TD> General Compatibility Issues with Windows 3.1
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="winthere.asc">winthere.asc</A>  <tab to=T><TD> 3537<BR><TD> Winthere, a Program to Test for the Presence of Windows 3.0 by Ben Meyers (1990)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="xdi.tec">xdi.tec</A>  <tab to=T><TD> 8904<BR><TD> XDI Specification for DESQview: Quarterdeck Technical Note by Daniel Travison
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="xga.doc">xga.doc</A>  <tab to=T><TD> 6887<BR><TD> How the XGA Graphics Settings are Achieved
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="xmodem.txt">xmodem.txt</A>  <tab to=T><TD> 6005<BR><TD> The Xmodem Protocol in General, by Lightning House Software
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="xt-640k.upd">xt-640k.upd</A>  <tab to=T><TD> 6940<BR><TD> Upgrading an Old IBM PC/XT to 640k, by Tony Movshon (March 2, 1988)
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="xt286.txt">xt286.txt</A>  <tab to=T><TD> 7296<BR><TD> Some Highlights of the New PC XT Model 286
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="xtformat.txt">xtformat.txt</A>  <tab to=T><TD> 3456<BR><TD> Modifying the FORMAT Utility on an IBM-XT running Dos 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="yapnet">yapnet</A>  <tab to=T><TD> 4532<BR><TD> Overview of the Yapnet Echomail
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="youth">youth</A>  <tab to=T><TD> 2468<BR><TD> Introduction to YouthNet: A Communications Network for the Young and Young-At-heart
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="zoom">zoom</A>  <tab to=T><TD> 14561<BR><TD> Overview of the Hayes AT Command Set for the Zoom Modem
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="zork3.txt">zork3.txt</A>  <tab to=T><TD> 1549<BR><TD> How to Backup and Unprotect Infocom's Zork III Game for IBM PC
+</TABLE><P><TABLE WIDTH=100%><TR><TD ALIGN=RIGHT><SMALL>There are 428 files for a total of 26,338,463 bytes.</SMALL><TR><TD ALIGN=RIGHT><SMALL>There are 5 directories.</SMALL></TABLE></BODY>
+</HTML>
+<P>If you wish to have the entire directory conveniently archived and compressed into one file, please download
+either <A HREF="http://archives.textfiles.com/computers.tar.gz"><B>computers.tar.gz</B></A> (9988380 bytes) or <A HREF="http://archives.textfiles.com/computers.zip"><B>computers.zip</B></A> (10983546 bytes) instead of all the files separately. <P>
--- a/textfiles.com/computers/1003v-mm
+++ b/textfiles.com/computers/1003v-mm
@@ -0,0 +1,56 @@
+
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͻ
+    <20>  Western Digital, Inc.                                  WD1003-MM1,2  <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>͹
+    <20>                                                                       <20>
+    <20>                   J6       J3     J4      J5      J1(MM2)             <20>
+    <20>  J1: Floppy     <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ<EFBFBD><C4BF><EFBFBD><EFBFBD>       <20>
+    <20>  J3: HD1 Data   <20>....     1::::  1::::  1::::::  1::::::  <20><>          <20>
+    <20>  J4: HD0 Data   <20>                                         <20><>          <20>
+    <20>  J5: HD Control <20>              W1 ::::        .. W3       <20><>          <20>
+    <20>  J6: HD LED     <20>                             .. W4       <20><>          <20>
+    <20>                 <20>                             .. W5       <20><>          <20>
+    <20>                 <20>                                         <20><>          <20>
+    <20>                 <20>                                    W6 : <20><>          <20>
+    <20>                 <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ       ڿ            <20><><EFBFBD>ٺ          <20>
+    <20>                                  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>   <20>          <20>
+    <20>  INTERFACE: ISA(AT)->ST506/412(MFM)                                   <20>
+    <20>  CONTROLS:  2 Floppy Drives (MM2 only; 360KB, 720KB, 1.2MB, 1.44MB)   <20>
+    <20>                                                                       <20>
+    <20>  W1: 1-2: Hard Drive Mode:  OFF: Latched Mode                         <20>
+    <20>                             *ON: Non-Latched Mode                     <20>
+    <20>                                                                       <20>
+    <20>      3-4: Error Correction Code (ECC), 4-byte:  *OFF: Enabled         <20>
+    <20>                                                   ON: (Reserved)      <20>
+    <20>                                                                       <20>
+    <20>      5-6: Caching:  *OFF: Caching Enabled                             <20>
+    <20>                       ON: Caching Disabled                            <20>
+    <20>                                                                       <20>
+    <20>      7-8: WD1003-WA2,WAH Compatibility for     OFF: Incompatible      <20>
+    <20>           Drives with 8 or more heads:          ON: Compatible        <20>
+    <20>                                                                       <20>
+    <20>  W3: Hard Drive I/O Address:  *OFF: Primary address                   <20>
+    <20>                                 ON: Secondary address                 <20>
+    <20>                                                                       <20>
+    <20>  W4: Floppy Drive I/O Address:  *OFF: Primary address                 <20>
+    <20>                                   ON: Secondary address               <20>
+    <20>                                                                       <20>
+    <20>  W5: Floppy Speed Support:   OFF: Single Speed Drives only            <20>
+    <20>                               ON: Dual Speed Drives only              <20>
+    <20>                                                                       <20>
+    <20>  W6: Bracket Grounding Option:  *OFF: Bracket not grounded            <20>
+    <20>                                   ON: Bracket grounded                <20>
+    <20>                                                                       <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ Additional Info <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ķ
+    <20>                                                                       <20>
+    <20>     W1:7-8 Addresses a disparity between the MMx series and the WA2/  <20>
+    <20>  WAH series concerning heads #8-15.  When replacing a WA2/WAH series  <20>
+    <20>  with an MMx series on drives with over 8 physical heads, this jumper <20>
+    <20>  is required to maintain compatibliity.                               <20>
+    <20>     There is no Low Level Formatting routine contained on this card.  <20>
+    <20>  A third-party LLF software program is required, ie; The IBM AT       <20>
+    <20>  Advanced Diagnostics, KOLOD Research Utilities, or Western Digital   <20>
+    <20>  AT Low Level Formatter (found on WD's BBS).                          <20>
+    <20>     Do NOT mix single-speed and Dual-speed Floppy drives on the same  <20>
+    <20>  controller.                                                          <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͼ
--- a/textfiles.com/computers/1006v-sr
+++ b/textfiles.com/computers/1006v-sr
@@ -0,0 +1,56 @@
+
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͻ
+    <20>  Western Digital Corp.                             WD1006V-SR1,SR2    <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>͹
+    <20>                                                                       <20>
+    <20>                   J6      J3     J4      J5       J1(SR2)             <20>
+    <20>  J1: Floppy     <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ<EFBFBD><C4BF><EFBFBD><EFBFBD>       <20>
+    <20>  J5: HD Control <20>....    1::::  1::::  1::::::  1::::::   <20><>          <20>
+    <20>  J4: HD0 Data   <20>                                         <20><>          <20>
+    <20>  J3: HD1 Data   <20>                :::W1         ..W2       <20><>          <20>
+    <20>  J6: HD LED     <20>                              ..W3       <20><>          <20>
+    <20>                 <20>                              ..W4       <20><>          <20>
+    <20>                 <20>                                         <20><>          <20>
+    <20>                 <20>                              ..W5  :W6  <20><>          <20>
+    <20>                 <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ       ڿ            <20><><EFBFBD>ٺ          <20>
+    <20>                                  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>   <20>          <20>
+    <20>  INTERFACE:  ISA(AT)->ST412(RLL)                                      <20>
+    <20>  CONTROLS:   2 Floppy Drives (SR2 only) (360KB, 720KB, 1.2MB, 1.44MB) <20>
+    <20>              2 Hard Drives                                            <20>
+    <20>                                                                       <20>
+    <20>                                                                       <20>
+    <20>  W1: 1-2: Hard Disk Mode:  Latched Mode: OFF                          <20>
+    <20>                            Non-Latched Mode: ON                       <20>
+    <20>                                                                       <20>
+    <20>      3-4: Error Correction Code: *4-Byte ECC  OFF                     <20>
+    <20>                                   7-Byte ECC: ON                      <20>
+    <20>                                                                       <20>
+    <20>      5-6: Onboard Cache:  Cache Enabled: OFF                          <20>
+    <20>                           Cache Disabled: ON                          <20>
+    <20>                                                                       <20>
+    <20>  W2: Onboard BIOS:  BIOS Enabled: OFF                                 <20>
+    <20>                     BIOS Disabled: ON                                 <20>
+    <20>                                                                       <20>
+    <20>  W3: Hard Drive I/O Address: *Primary Address: OFF                    <20>
+    <20>                               Secondary Address: ON                   <20>
+    <20>                                                                       <20>
+    <20>  W4: Floppy Drive I/O Address: *Primary Address: OFF                  <20>
+    <20>                                 Secondary Address: ON                 <20>
+    <20>                                                                       <20>
+    <20>  W5: Dual Speed Floppy Support:  Single Speed Drives: OFF             <20>
+    <20>                                  Dual Speed Drives: ON    (note 1)    <20>
+    <20>                                                                       <20>
+    <20>  W6: Ground Connection:  Bracket not connected to Board Ground: OFF   <20>
+    <20>                          Bracket connected to Board Ground: ON        <20>
+    <20>                                                                       <20>
+    <20>  (note 1) DO NOT mix single & dual speed drives in the same system.   <20>
+    <20>                                                                       <20>
+    <20>  (* defaults)                                                         <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ ADDITIONAL INFO <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ķ
+    <20>                                                                       <20>
+    <20>  Low Level Format can be done on boards that have their BIOS enabled  <20>
+    <20>  by utilizing the DOS DEBUG command g=cc00:5.                         <20>
+    <20>                                                                       <20>
+    <20>  It is recommended that a Format be accomplished when changing from a <20>
+    <20>  WD1003-XXX controller to the WD1006V type controller.                <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͼ
--- a/textfiles.com/computers/1080mods
+++ b/textfiles.com/computers/1080mods
@@ -0,0 +1,60 @@
+Amiga 1080 Monitor Modifications
+
+   A number of Amiga 1080 monitors were built by Toshiba. The people at
+Toshiba could have done a better job in a couple of respects:
+
+   First, they did a poor job of extracting vertical sync pulses from the
+   video signal that comes from the Amiga. This produces an error in the
+   interlacing when the Amiga is used in 320x400 or 640x400 display modes.
+   When you look closely at the screen you see alternating line spacings. It
+   also gives characters a ragged look.  The modification described in the
+   dPaintII file reduces the interlace error by a factor of about 5.
+ 
+   While interlaced video isn't the nicest thing to read characters on, it's
+   neat to be able to put nearly all of a typewritten page on the screen. Most
+   of the Amiga outlets handle a neat thing called Jitter-Rid, or some such
+   thing.  It is a thick piece of smoked plastic that goes on your 1080
+   monitor. It enhances the contrast and attenuates the light from the screen
+   to keep your brain from rattling too badly from the flicker. Also, dark
+   characters on a light background seem to work best for me, anyway.
+
+   The second problem is a thing called crossover distortion. They did a dumb
+   thing that distorts the audio, even at very low volume levels. The Amiga
+   deserves better sound. Unfortunately, this mod takes 2 diodes and a
+   resistor, but it essentially eliminates the crossover distortion.
+
+   If you aren't afraid of working on the average modern TV set, the 1080
+   shouldn't prove to be much of a problem. Looking from the back, there are
+   four screws, one at each corner. You need a long Philips screwdriver for
+   those. There is a bottom plate that that also needs to come off. Finally,
+   there is a screw just above the RGB input connector. Now, if you place the
+   monitor face down on a soft towel, you can, with a little judicious prying
+   and tugging, lift the rear part of the case off. Watch out for the speaker
+   lead. You will have to unplug the connector before the back can come clear
+   off.
+
+  You will need to have something to support the neck of the CRT. A 1x4 about
+  3-4 inches long worked pretty well. The whole assembly is pretty limber, so
+  use reasonable caution. The main board on the bottom can be slid back along
+  with all of the front-panel knobs. This permits access to the controls - you
+  might as well squirt some contact cleaner in there while you are at it.
+
+  If you are looking at the bottom, with the face of the CRT on your right,
+  you will see a large IC that is the guts of the whole thing right in the
+  middle of the board. C304 is visible above and to the left of the centerline
+  of that humongous IC.
+
+  The board that contains the audio output amplifier is on the left side of
+  the 1080 if you are facing the screen. Looking at the underside of the
+  board, the components you are looking for to do the audio mod are on the
+  upper left corner.
+
+  Fortunately, the P.C. boards have component numbers screened on them, so it
+  isn't too hard to find the parts. I did the audio mod by lifting the
+  collector lead of Q605 out of the hole and wiring directly to it. In
+  retrospect, it probably would have been easier if I had just soldered an
+  insulated wire to it, brought the wire through the hole and done all of the
+  wiring on the backside of the board. If you are concerned about vibration
+  messing up the "air-wired" connections, a shot of hot glue or some similar
+  measure should put your mind at rest. The diodes are 1N914s from Radio
+  Shack, but most any small-signal silicon diode should do.
--- a/textfiles.com/computers/1105.txt
+++ b/textfiles.com/computers/1105.txt
@@ -0,0 +1,60 @@
+Document 1105
+BOOTING WITH DR DOS
+
+Initials:
+	BPT
+	10/31/91
+	GENERAL
+
+Keywords:
+	BOOT
+	INSTALL
+
+Description:
+        In order to install DR DOS you must make sure that you are
+        booting from a floppy in drive A:. DR DOS will not install
+        from drive B:. DR DOS comes on 3 1/2 inch low density
+        floppies and 5 1/4 inch Hi-density floppies. If you need
+        5 1/4 inch low-density disks (360K) send in the coupon that
+        comes with your DR DOS.
+
+        If the boot disk hangs while trying to load, usually it means
+        there is an incompatible or faulty piece of hardware.
+
+	One of the things it can be is simply an older floppy 
+	drive that is out of alignment.  Sometimes the situation
+	can be salvaged by formatting a floppy on the boot drive
+	with the old DOS, then doing a diskcopy. The potential 
+	problem is that the diskcopy may not be able to read the 
+	boot disk either. If you can't make a backup then it may 
+	be necessary to get a replacement disk set from Digital
+	Research (in case there is an actual error with the disk,
+	which does sometime happen) or see about getting the 
+	drives aligned.
+
+	********************************************************
+
+	Another problem is where you can make valid Diskcopies 
+	but all you get is the message "Loading...". Here the
+	potential problem may be the computer's bios. DR DOS 
+	must be able to direct the system to the area where DOS 
+	Kernel files are located. Older bioses are not able to 
+	perform this function. If your bios dates from around
+	1987 or earlier you may need an update.
+
+	********************************************************
+
+	And finally, if you can read the disks but are unable to 
+	format a disk or make a diskcopy DR DOS may think you 
+	have a different type of floppy than you actually have.
+	Another symptom of this is if you are making a floppy
+	installation and DR DOS asks you for 5 1/4" floppies
+	when you actually have 3 1/2" floppies. If this is an XT
+        type computer (by which we mean it has no CMOS config-
+	uration program) then you can place a DRIVPARM state-
+	ment in your CONFIG.SYS. Refer to the DR DOS manual to
+	see how to use this parameter. DRIVPARM uses no RAM. It
+	merely updates the DR DOS drive tables with the type
+	drive you specify. If your computer does have a CMOS 
+	setup program then you need to correct the entries for
+        your floppy drives in CMOS.
--- a/textfiles.com/computers/144_ctrl.txt
+++ b/textfiles.com/computers/144_ctrl.txt
@@ -0,0 +1,130 @@
+
+The Control Team proudly presents:
+
+Zaphod Beeblebrox's notes on using Pc 1.44 Mb 3.5" drives with ST/STE's with a
+minimum of trouble. If you have Tos v2.06 and STE, even the TOS will recognize
+that you have an 1.44 drive installed as your internal drive!!! Version 1.1
+==============================================================================
+
+This whole thing started a few days ago, when I decided that I was fed-up with
+all those 720 Kb disks, I needed something better for backing up all the wares
+from my BBS, and I thought.... Hmm, wait a sec, the Pc dudes have 1.44 drives
+in their computers, and so does the Mega STE.... Why not install one in my
+"normal" STE as well??? Then I started planning for the project, and came to
+this conclusion:
+
+1. You must have a WD1772-02-02, the other ones will not handle the doubled
+clock frequency of 16 mHz without problems.
+
+2. Your 1.44 Mb diskdrive must output a signal on pin 2 (HD detect) whenever a
+HD disk is present in the drive. Examples of drives that works fine with this
+modification: TEAC and Panasonic. I used a Panasonic drive for my own
+computer. Not all drives have the jumpers set-up correctly when you buy them,
+so *NEVER* buy a drive if they cannot tell you fer sure that it really has the
+HD detect signal output. Because if it doesn't have it, you're fucked up!!
+
+3. You must have some kind of circuit that only enables 16 mHz when drive 0 is
+selected and a HD disk is present in drive 0.......
+
+4. If you have a STE, you should also solder a jumper on bridge E6 underneath
+the drive in order to get TOS to recognize that you have a 1.44 Mb drive.
+
+
+The Circuit:
+============
+
+I designed my automatical HD detect switch around a 74LS00 and a 74F157. The
+LS00 is a quadruple NAND gate, and the F157 is a dual two-to-one multiplexer.
+The first thing you need to do, is to invert the HD detect signal with one of
+the NAND gates, you simply feed the HD detect on both inputs of one of the
+NAND gates and there you have it - inverted HD detect on the output of that
+NAND gate!!!! What you do now, is that you take the drive B select signal and
+the inverted HD detect signal and feed them onto the inputs of a second NAND
+gate. Now, you'll only get a '0' output from the second NAND gate if....
+
+   * Drive B is not selected
+   * Drive A contains a HD disk
+
+After this, we simly feed the output of the second nand gate to the select
+input on the F157 multiplexer. This means that the conditions above will
+select 16 mHz clock for the FDC, and all other conditions will select the
+standard 8 mHz clock. Easy, isn't it??? Now, I will present you with the
+actual circuitry.... Remember that the wires are only joined where I have "+"
+signs, other wires are just crossing each other. It's very importanf that you
+get tha 74F157 and not anything slower. the 74LS157 cannot handle more than
+about 14-15 mHz and we need something that will switch 16 mHz without problems.
+
+
+     +--------+  +-----------------------+
+     |        |  |                       |
+     |        |  |  |  |  |  |  |  |     |
+     |      --------------------------   |
+     |      !                        !   |
+     |      !                        !   |
+     |      \         74F157         !   |
+     |      /       MULTIPLEXER      !   |
+     |      !                        !   |
+     |      !                        !   |
+     |      --------------------------   |
+     |        |  |  |  |  |  |  |  |     |
+     |   +----+  |  |  |           +-+---+
+     |   |       |  |  |             |
+     |   |       |  |  +---------------------------+
+     |   |       |  |                |             |
+     +---|----+  |  +--------------------------+   |
+     |   |    |  |                   |         |   |
+     |   |    |  +-------------------------+   |   |
+     |   |    |                      |     |   |   |
+     |   |    |  |  |  |  |  |  |    |     |   |   |
+     |   |  -----------------------  |     |   |   |
+     |   |  !                     !  |     |   |   |
+     |   |  !                     !  |     |   |   |
+     |   |  \        74LS00       !  |     |   |   |
+     |   |  /    QUAD NAND GATE   !  |     |   |   |
+     |   |  !                     !  |     |   |   |
+     |   |  !                     !  |     |   |   |
+     |   |  -----------------------  |     |   |   |
+     |   |    |  |  |  |  |  |  |    |     |   |   |
+     |   |    |  |  |  +--+  |  +----+     |   |   |
+     |   |    |  |  |  |     |  |          |   |   |
+     |   |    |  +--|--------+  |          |   |   |
+     |   |    |     |  |        |          |   |   |
+     |   +----------+  |        |          |   |   |
+     |        |        |        |          |   |   |
+     |        |        |        |          |   |   |
+     *        *        *        *          *   *   *
+     +5V     D1S      HDD      GND       16M  8M  FDC
+
+What do all these abbreviations stand for?? Well....
+
+5V is the juice required for our little gadget... Get this from Pin 15 of the
+WD1772-02-02 chip.... GND is ground, which you can get from Pin 14 of the
+WD1772-02-02... D1S is drive B select, which is Pin 19 of the YM2149
+soundchip. HDD is pin 2 of the diskdrive ribbon cable. It's the wire right
+besides the red marked wire, which is number one. That is, HD detect is wire
+#2 on the 34 wire diskdrive ribbon cable. 16M is a 16 mHz signal, which can be
+tapped from Pin 52 of the STE videoshifter, or Pin 2 of the STE MCGLUE (The
+big 144 pin surface mounted, not a very good idea, but if you follow the trace
+from Pin 2 of it, you'll discover the correct thru-hole where you should tap
+the 16 mHz signal, it's located right between the videoshifter and the SIMM
+memory modules on the motherboard). FDC is the WD1772 clock signal, which can
+be found on Pin 18 of the Floppydisk controller. 8M is the 8 mHz signal, which
+can be tapped from the old pin 18 hole, or a thru-hole near the WD1772 socket.
+Or you might also tap the 8 mHz signal from pin 15 of the MC68000 CPU.
+
+This has been another Control Team production, presented to you by Zaphod
+Beeblebrox of The Control Team. This project worked just fine for me, but I
+will not accept any responsibility if your computer turns itself into a
+toaster while performing this hardware modification. By the way, if you like
+my work, you're welcome to send me a donation if you want to... (HAHAHAHA!!!).
+You can reach me at any of the Control Team boards:
+
+      Eagles Nest BBS     +46-18-262804     (235 Megs and HST Dual Standard).
+      Data Control I.     +1-(818)/558-5636 (200 Megs + 88*x Syquest and HST).
+
+Or send me a snailmail at this address:
+
+      Carl Andersson
+      Liggargatan 5J
+      754 20 Uppsala
+      Sweden
--- a/textfiles.com/computers/144disk.txt
+++ b/textfiles.com/computers/144disk.txt
@@ -0,0 +1,123 @@
+The following is an exerpt from a text file written/complied by one
+A.D. Longton of Rockville, MD. I have omitted the discussion of how
+to make a 1.44M disk from a 720K disk with a soldering iron since I
+don't want to be a party to furthering that practice. I did, however,
+find the remainder of the information quite interesting and have 
+included it here. As You can see, it comes directly from the 
+'brain trust' at Big Blue and may tend to lend some measure of credibility
+to what I've been saying all along. The original file was dated 5/10/89,
+I'm not sure when the information spewed forth from Boca Raton.
+-[Steve]- (tm)
+
+-------------------------------------------------------------------------------
+
+
+
+
+
+                           3.5" DISKETTE FORMATS
+                                Kevin Maier
+                              IBM Corporation
+                            Boca Raton, Florida
+                      "Reprinted by permission of the
+                  IBM Personal Systems Technical Journal."
+                           Page 42, issue 2, 1989
+
+     "The  original recommendations about the proper formatting and use
+     of  PS/2 diskettes have undergone revision.  This article explains
+     why the recommendations have changed.
+
+                            THE ORIGINAL CAUTION
+
+     Personal  System/2 shipping cartons include a sheet of paper  that
+     cautions  users not to format a 2.0 MB diskette to 720 KB, because
+     the diskette becomes unusable and should be discarded.
+
+     This  caution was issued because of the physical properties of 720
+     KB  diskettes versus 1.44 MB diskettes.  The 720 KB format uses  a
+     higher  write current, and the  1.44 MB format uses a lower  write
+     current.   To  accommodate  the  higher write current,  the  oxide
+     coating on a 1.0 MB (720 KB formatted) diskette is denser than the
+     oxide coating on a 2.0 MB (1.44 MB formatted) diskette.
+
+     When  you format a 2.0 MB diskette to 720 KB, you apply the higher
+     write  current  to  the  less dense oxide coating.   The  hardware
+     developers  originally felt that this meant the 720 KB  formatting
+     pattern  is  written too  deeply  into the 2.0 MB  oxide  coating,
+     causing intermittent data errors and unreliable use.  Furthermore,
+     the developers felt that if you attempted to reformat the diskette
+     to 1.44 MB, which uses the lower write current, the 1.44 MB format
+     would  not  completely  write  over  the "deeper" 720  KB  format.
+     Therefore  the developers' recommendation was to discard a 2.0  MB
+     diskette that was formatted to 720 KB.
+
+                          THE SUBSEQUENT FINDINGS
+                             [aka a RETRACTION]
+
+     Since  the time that this caution was issued, the developers  have
+     performed  additional testing, and have concluded that there is no
+     need to discard a 2.0 MB diskette that was formatted to 720 KB.
+
+     It  is still true that a  2.0 MB diskette formated to 720 KB  will
+     cause intermittent data errors.  However, the latest assessment is
+     that  you will be able to reformat the diskette to 1.44 MB and use
+     it reliably after that.
+
+     The  same logic applies to a 1.0 MB diskette formatted to 1.44 MB.
+     You cannot use it with the 1.44 MB format, but you can reformat it
+     to 720 KB and use it reliably after that.
+
+     Therefore,   the  current  recommendation  is:  If  you  format  a
+     diskettte  to  the  wrong  capacity, do not discard  it;  instead,
+     reformat it correctly and use it."
+
+
+     With  all those feelings  and recomendations on those feelings  it
+     makes  me wonder how much experimentation was actually being  done
+     on  a  strictly scientific level.   Note that the one  mention  of
+     formatting  1.0mb disks to 1.44 MB does not say that you will  get
+     errors  if you use them.  What it does say is that if you reformat
+     that  wrongly formatted disk, you can reliably use it at 720  KB.
+     The  implication is that since there were errors with 2.0mb  disks
+     formatted  to 720 KB "logic applies" that there will be errors  if
+     the  reverse is done.  This is not necessarly the case, and we are
+     not told why, we are just told.
+
+     FYI, here are the specifications for the 720 KB, 1.44 MB, and 360k
+     5.25"  disk  drives  as  listed  in the same issue on pages 43-44.
+     Note the large similarity between 360k and 720 KB disks and 720 KB
+     disks and 1.44 MB disks.
+
+                     720 KB and 1.44 MB Diskette Drives
+
+                                  720 KB     1.44 MB     360 KB (5.25")
+     Access time:
+          Track-to-track            6 ms        6 ms       6 ms
+          Head settle time         15 ms       15 ms      15 ms
+          Motor start time        500 ms      500 ms     750 ms^
+
+     Disk rotational speed:       300 rpm     300 rpm    300 rpm
+          Maximum Latency         200 ms      200 ms     200 ms
+     Formatted Characteristics:   720 KB     1.44 MB^    360 KB^
+          Tracks (actual)          80          80         40   ^
+          Tracks per inch         135 tpi     135 tpi     48   ^
+          Sectors per track         9          18   ^      9
+          Bytes per sector        512         512        512
+          Bytes per track        4608        9216   ^   4608
+          Data heads                2           2          2
+          Sector interleave factor  1:1         1:1        1:1
+          Sector skew factor        0           0          0
+          Sectors per cluster       2           1   ^      2
+
+     Transfer rate            250,000     500,000^   250,000
+     (bits per second)
+
+     (All ^'ed numbers are numbers that are different from the 720 KB
+     format.)
+
+             "...if they think you're technical, go crude. ....
+         These days, though, you have to be pretty technical before
+                     you can even aspire to crudeness."
+
+                           --From William Gibson's short story
+                             Johnny Mnemonic
--- a/textfiles.com/computers/144meg.txt
+++ b/textfiles.com/computers/144meg.txt
@@ -0,0 +1,358 @@
+From: pegram@uvm-gen.UUCP (Robert B. Pegram)
+Newsgroups: comp.sys.atari.st.tech
+Subject: How to upgrade your ST floppies to 1.44Meg 3.5" drives
+Date: 18 Jul 90 16:14:16 GMT
+Sender: nobody@uvm-gen.UUCP
+Organization: EMBA Computer Facility, Univ. of Vermont, Burlington.
+
+
+Tried to post this yesterday from GnuEmacs - no go.  Here it is,
+Hartmut Semken(AKA hase)'s 1.44 meg Upgrade for Atari STs and Megas.
+This is a compilation of several postings, edited by Bob Pegram, my
+comments are indicated by  [..text..] <- RBPIII.  I have yet to do the
+upgrade myself (lazy 8-), but it seems workable.  From the TT rumor 
+about no HD floppy for now, it would seem that Atari is doing the same 
+thing, only with a new (not yet fully available) floppy controller from 
+Western Digital that *is rated* to handle the higher clock input that is
+necessary.  Thus, in the future, this upgrade may become a more reliable 
+and simple chip replacement.  Enjoy,
+Bob Pegram
+
+originally From: hase@hase_1.UUCP (Hartmut Semken)
+original Subject: Re: Floppy drive 1.44 meg woes!
+original Date: 11 Feb 90 09:55:00 GMT
+ References: <9002030029.AA23185@jade.berkeley.edu> <2103@ultb.isc.rit.edu>
+ Organization: h.a.s.e., Berlin, West Germany
+
+
+clf3678@ultb.isc.rit.edu (C.L. Freemesser) writes:
+
+ Reply-To: hase@netmbx.UUCP (Hartmut Semken)
+ Organization: netmbx Public Access Unix, Berlin, West Germany
+ Lines: 28
+ Posted: Sat Nov 25 17:57:46 1989
+
+
+>>  I'm having a few problems hooking up my 1.44 meg teac. I was wondering
+> From what I know, you can't use HD on the ST.  The controller chip
+>can't handle it.  Just be glad it works in 720k mode.  :^)
+
+Well, you can, if you hack the hardware.
+
+Here we go again:
+
+The trick is to double the clock frequency of the controller chip, so it
+will talk twice as fast to the drive: the bit stream has "high-density"
+format.
+A clock of 16 MHz is well beyond specification (the WD1772 is rated to
+run at up to 10 MHz), but it will work most of the time.
+
+The hack consists of two parts: hardware and software and works with
+( [3.5 inch] <- RBPIII ) high density drives only!
+
+[The reason being that the drive must auto-sense the HD disk when it is 
+ inserted and change its RPMs up accordingly.  5.25 (1.2Meg) drives do 
+ *not* do this!  Neither do all HD 3.5" floppies (notably the ones on 
+ true blue PS 2 s). ] <- RBPIII
+ 
+Now: the hardware.
+
+The clock pin of the WD1772 is pin 18. It is normally hooked to the 8
+MHz clock.
+Cut this pin and connect it to the output of a simple circuit. feed the
+two inputs of this simple circuit with 8 MHz and 16 MHz clocks (16 MHz
+can be gotten at SHIFTER pin 39).
+The "simple circuit" mentioned above could be a simple, manual switch.
+Now You are able to select two clock frequencies and therfore two
+"modes" for the controller chip: double density and high density.
+
+The simple circuit could also be a multiplexer (74LS157, I think)
+controlled by the "I detected a HD-disk in me"-output of the floppy
+drive (the TEAC FD 235 HFN provides this outout on pin 2 if a jumper is
+set; the 235 HFN has a second jumper that enables internal detection of
+HD disks: this must be set, too).
+With the MUX, a disk inserted will select the appropriate mode of
+operation automatically.
+
+Do not worry about two drives in different modes: when copying from one
+drive to the other, the clock rate will be switched once to twice a
+second. This will not trouble the controller (remember the clock to be
+in the range of Megahertz...).
+If you want to connect one HD drive and one DD drive, you'll need two
+more TTL gates (one 74LS00 will do) to make sure, the controller is in
+DD mode for the DD only drive: invert the HD-detected-output (it is LOW
+for DD before, HIGH for DD behind the inverter) and feed it into a NAND
+gate together with drive select for the DD drive. Let a HIGH output of the
+NAND gate select DD-clock (8 MHz). Now "not-HD-detected OR DD-drive-select"
+will select DD mode, right?
+
+With two HD drives, there is no problem at all :-) [except for the 
+High Density floppy boot problem, discussed below.  You have to set 
+the step rate from the boot sector.] <- RBPIII
+
+Now for the software:
+
+The controller uses its clock as base for all timings.
+The pulse width and time between pulses for the step line are controller
+controlled.                                                   ^^^^^^^^^
+                                                       [WD 1772] <- RBPIII
+To make it short: with the doubled clock the controller will try to make
+the head step twice as fast: he will send a step pulse every 1.5
+milliseconds if set to 3 milliseconds (which is TOS standard).
+Just set the step rate to 6 milliseconds to make the controller step 3
+milliseconds in HD mode (well, the 6 milliseconds steps in DD mode will
+slow down floppy operation a bit, but not that much. Not stepping, [but]
+reading and writing takes the time!).
+
+How to set the step rate?
+Well, there is a documented TOS variable for the step rate at 0x440
+called seekrate.
+The step rate in this variable will be used by the BIOS after a call of
+the routine, pointed to by "hdv_init" (the hdv_init routine seems to
+initialize the BIOS parameter blocks for the floppies). The pointer to
+hdv_init can be found at 0x46A (this is a supported TOS variable, too).
+Look at the MWC-Assembler source below.
+
+[More information on the step rate from another posting - between the 
+curly braces below] <- RBPIII
+
+{
+ In article <1346@uvm-gen.UUCP> pegram@uvm-gen.UUCP (pegram r) writes:
+ >
+ >Rats! I looked up the possible seek rates last night, 6 msec is as slow
+ >as she goes. 
+
+ Hmm, TOS will step at 6,12,2,3 msec (with rate codes 0,1,2,3).
+ Setting the controller to 6 msec and doubling the clock works for almost
+ all 3.5 inch HD drives.
+
+ [I wanted to know if you could still use a (360 K) 5.25 drive, which 
+ needs a true 6 msec step rate.  This was when no WD 1772 clock switching 
+ (between 8 and 16 Mhz) was contemplated.  If your 1772 works this 
+ fast, you can forget the switch, or use a properly buffered manual 
+ switch for those rare occasions when it's necessary.  "Properly buffered"
+ you ask?  See any of the usual designs that eliminate switch bounce -
+ Radio Shack's pamphlets on digital electronics have the circuits needed.
+ The 74LS00 mentioned above will work nicely as the debouncer and "glue".
+ You still want that Multiplexer and you send in the debounced 16Mhz ("On" 
+ or "TRUE") and 8Mhz (The inverted "FALSE" or "OFF") outputs from the manual 
+ switch to select the clocks.  That is just a design off the top of my
+ head, which needs to be improved.  Please do post a better one if you
+ come up with one, I can think of a one chip (the LS00) solution if
+ clock skew to the WD1772 is unimportant (as in 180 degrees out of
+ phase 8-). The reason I mention it is because, I believe that the 
+ problem mentioned at the beginning of the original posting was due to 
+ either an incorrect jumper setting on the drive, or a noise problem 
+ in the ST, having the clocks going all over the ST to the switch, 
+ is not a good idea at all!  You don't have to worry about driving 
+ more capacitance with such free standing wires, but you do have to 
+ think about the effect of having some new high frequency antennas 
+ inside your ST!] <- RBPIII
+
+ >It would also be hard to boot from a floppy with this
+ >mod (double - 16Mhz - clock for 1772 + formatter + "6"msec seek rate).
+ >Do you have to have a seek rate setting boot sector on every boot
+ >floppy and would that idea even work?
+
+ Sure, that should work, since no steps schould be necessary to read the
+ boot sector.
+ I boot from harddisk...
+
+ [Me too, but some utilities (DC formatter at least) can format disks 
+  with boot sectors that can reset the step rate on boot up. Game disks
+  could be similarly hacked to work with the new drive.] <- RBPIII
+
+ If the HD-floppy does not work after modifying the ST, the step pulse
+ width is a probable cause.
+ In that case, use an edge-triggered monoflop to "resize" the pulse.
+                                     ^^^^^^^^
+ [hase means a monostable or "one-shot" available in TTL or with the "555"
+  timer chip.] <- RBPIII  
+}
+
+The second thing is to get a formatter that will format 18 sectors per
+track. HYPERFORMAT by Claus Brodt is such a thing, but a simple
+formatter hacked from the example in the Mark Williams C Lexicon did the
+same. It's included below.
+
+
+For help try to write to hase@hase_1.mbx.sub.org, but it'll probably
+bounce; our mail service is fading fast... 
+
+[Check if hase's current address is the same, he does show up on c.s.a.s] 
+<- RBPIII
+
+I'll try to reply to anything, I finally get.
+
+hase
+
+------- cut for seek6.s -----------
+/module name seek6
+
+.shri
+
+.globl main_
+main_:
+clr.l-(sp)
+move.w$0x20,-(sp)
+trap$1
+addq.l$6,a7
+move.ld0,_save_ssp
+move.w$0,0x440/ 0 => 6 ms
+lea0x46a,a0
+move.l(a0),d0
+movea.ld0,a0
+jsr(a0)
+move.l_save_ssp,-(sp)
+move.w$0x20,-(sp)
+trap$1
+addq.l$6,a7
+.even
+_save_ssp:
+.blkl1
+/ seek rate codes are 0,1,2,3 for 6,12,2,3 milliseconds
+
+Sets seek rate to 6 Milliseconds for *all* drives (with *any* TOS
+version; tested on Rainbow TOS (1.4), BLiTTER TOS (1.2) and TOS 1.0):
+
+------------ cut for formath.c -------------
+
+/* formath.c Formatter fuer High Density Disketten */
+/* nur fuer angepasste Hardware! Floppycontroller und Laufwerk */
+/* muessen High-Density tauglich sein! */
+/* Hartmut Semken, Lupsteiner Weg 67 1000 Berlin 37 */
+/* hase@hase_1.mbx.sub.org or hase@netmbx.mbx.sub.org */
+/* 03-SEP-89 */
+#include <stdio.h>
+#include <osbind.h>
+#include <time.h>
+
+#define SLEEPTIME 1/* 1: Zeitschleife, 0: Taste */
+#define BLANK (0xE5E5)
+#define MAGIC (0x87654321L)
+#define BUFSIZE (20*1024) /* Platz fuer mehr als 18 Sektoren... */
+
+#define DEVICE 0/* 0 = Floppy A, 1 = Floppy B*/
+#define SIDES 2/* je  */
+#define SECTORS 18/* nach*/
+#define TRACKS 80/*Belieben*/
+
+#define TOTSEC (TRACKS * SIDES * SECTORS)
+
+extern int errno;
+
+main(){
+int track;
+int side;
+int status;
+short *bf;
+register char reply;
+short *middle;
+char buffer[512];
+
+printf("\033E\n");
+printf("Public Domain High Density Mini Formatter\n");
+printf("von H. Semken\nDer Autor garantiert in keiner Weise fr die Funktion\nDi
+eses Programmes.\nBenutzung auf eigene Gefahr.\n");
+printf("\n\n\n");
+printf("\007\033pFormatiere Diskette in Drive %c\033q\n%d Seiten\n%d Sektoren p
+ro Spur\n%d Spuren\n\n", (65+DEVICE), SIDES, SECTORS, TRACKS);
+printf("Wirklich formatieren? ");
+fflush(stdout);
+if ((reply = Crawcin()) != 'y' && reply != 'Y' && reply != 'j' && reply != 'J')
+ {
+printf("Nein. Floppy nicht formatiert.\n");
+sleep(1);
+Pterm0();
+}
+printf("Ja.\n");
+printf("Diskette einlegen; Taste drcken...");
+fflush(stdout);
+Crawcin();
+printf("\n");
+bf = malloc(BUFSIZE);
+for (track = TRACKS-1; track >= 0; track--) {
+for (side = 0; side < SIDES; side++) {
+printf("Formatiere Spur %d, Seite %d", track, side);
+fflush(stdout);
+status = Flopfmt(bf, 0L, DEVICE, SECTORS, track, side, 1, MAGIC, BLANK);
+if (status) {
+middle = bf;
+printf("\t%d\n", status);
+while (*middle) {
+printf("\tDefekter Sektor %d\n", *middle++);
+}
+} else {
+printf("\tokay\r");
+}
+}
+}
+printf("\n\nAlle Spuren formatiert\n");
+printf("Initialisiere Directory\n");
+for (track = 0; track < (BUFSIZE>>1); bf[track++] = 0);
+for (track = 0; track < 2;track++) {
+for (side = 0; side < SIDES; side++){
+if (status = Flopwr(bf, 0L, DEVICE, 1, track, side, SECTORS)) {
+errno = -status;
+perror("Write Error");
+}
+}
+}
+Protobt(buffer, (long)Random(),3,0); /* Prototyp Bootsector fr 
+                                      * 80 * 2 * 9 Sektoren */
+/* Prototyp Bootsektor fr das neue Format anpassen */
+/* Bytes 19 und 20 enthalten die Sektoren pro Disk */
+
+/* unteres Byte von TOTSEC */
+buffer[19] = (char)(((TOTSEC>>8)<<8)^TOTSEC);
+/* oberes Byte von TOTSEC; es lebe das Intel int-Format */
+buffer[20] = (char)(TOTSEC>>8);
+buffer[24] = (char)SECTORS; /* Sektoren pro Spur */
+status = Flopwr(buffer, 0L, DEVICE, 1, 0, 0, 1);
+if (status) {
+errno = -status;
+perror("Write Error (Bootsector)");
+}
+status = Flopver(buffer, 0L, DEVICE, 1, 0, 0, 1);
+if (status) {
+errno = -status;
+perror("Verify Error (Bootsector)");
+}
+printf("Diskette in Laufwerk %c formatiert\n", (65+DEVICE));
+sleep(1);
+Pterm0();
+}
+
+sleep(seconds)
+int seconds;
+#if SLEEPTIME
+{
+clock_t t;
+for(t = clock();clock() < (t + CLK_TCK*seconds););
+}
+#else
+{
+printf("Taste druecken\n");
+fflush(stdout);
+Crawcin();
+}
+#endif
+-- 
+original idea and post by:
+
+>Hartmut Semken, Lupsteiner Weg 67, 1000 Berlin 37 hase@hase_1.UUCP
+>Dennis had stepped up into the top seat whet its founder had died of a
+>lethal overdose of brick wall, taken while under the influence of a
+>Ferrari and a bottle of tequila. (Douglas Adams; the long dark teatime...)
+
+Additions by:
+
+Bob Pegram   Internet: pegram@griffin.uvm.edu
+     UUCP: you figure it out!
+     Physical Mail: R. Pegram, R.R. #2, Box 2843, Green St.,
+    Vergennes, Vt. 05491, U.S.A.
+     Home Tel: (in N.A., add appropriate codes if elsewhere)
+ (802) 877 0018
+
+
+
--- a/textfiles.com/computers/1541.tri
+++ b/textfiles.com/computers/1541.tri
@@ -0,0 +1,310 @@
+X-NEWS: hylka comp.sys.cbm: 9773
+Path: klaava!news.funet.fi!news.tele.fi!uunet!pipex!uknet!warwick!not-for-mail
+From: stuce@csv.warwick.ac.uk (Peter Weighill)
+Newsgroups: comp.sys.cbm
+Subject: 1541 disk drive commands.
+Date: 25 Sep 1993 19:20:47 +0100
+Organization: Commodore 64 Services, University of Warwick, UK
+Lines: 122
+Message-ID: <28225v$1s3@tansy.csv.warwick.ac.uk>
+
+
+TWO RARELY USED 1541 DISK DRIVE FUNCTIONS
+
+
+1. The Utility Loader '&' command.
+
+INTRODUCTION     
+
+     A little known and little used command on the 1541 disk drive is the
+"&" command. This is probably due to the fact that there is no mention of it
+in the "1541 DISK DRIVE users guide". Many other books about the disk drive
+also fail to mention it. As to a use for the command, I have not found one
+yet. Perhaps someone could think of one. I would expect that the 1570/1571
+and 1581 drive will also contain the "&" command as well, since they are
+based on the 1541.
+
+UTILITY LOADER  ("&" command)
+
+     The utility loader is the command which will load a USR file from
+disk into disk drive memory where it will then execute. The format for
+the command is as follows:
+OPEN15,8,15:PRINT#15,"&filename":CLOSE15
+
+USR FILES
+
+     A user file has to follow certain guidlines. It is limited to just
+one sector and this sector is constructed as below;
+
+Byte
+0      Start address low  order
+1      Start address high order
+2      Number of bytes in program
+3+     Program code bytes
+last   Checksum
+
+     This means that the maximum size of program code is 251 bytes. The
+checksum byte is calculated by adding all the values of the bytes, starting
+at the low order start address (byte 0), while adding you subtract 255 from
+the total every time it exceeds 255. Thus the checksum byte can range from
+1-255.
+     One final constraint is that the filename must begin with an "&".
+     Below is a program which will make it easier for you to create a USR
+file in the required format, so that it can be executed by the utility
+loader command. The program automatically calculates the length of the code
+and also the checksum at the end. All you need to do is add your own code
+to the data statements between 210 and 300 and specify a filename in line 10.
+
+10  OPEN2,8,2,"0:&filename,U,W"
+20  READLO,HI:C=LO+HI:IFC>255THENC=C-255
+30  PRINT#2,CHR$(LO)CHR$(HI);
+40  T$=""
+50  READD:IFD=-1THEN100
+60  C=C+D:IFC>255THENC=C-255
+70  T$=T$+CHR$(D)
+80  GOTO50
+100 L=LEN(T$)
+110 C=C+L:IFC>255THENC=C-255
+120 PRINT#2,CHR$(L)T$CHR$(C);
+130 CLOSE2
+140 END
+170 :
+200 DATA 0,5 :REM lo/hi start address
+210 :         REM program code
+220 DATA 173,0,28,41,16,201,16,208,11
+230 DATA 169,247,45,0,28,141,0,28,76
+240 DATA 0,5,32,24,193,76,0,5
+300 DATA -1  :REM program data finished
+
+     The example code in the program is not that useful, it is just there
+to show how the utility loader works. It just switches the drives light on
+and off depending on if the write protect sensor is covered or not.
+     If you can think of something which could be done with the utility
+loader then I would love to hear of it.
+
+ERRORS THAT CAN OCCUR
+
+39, 'file not found'
+        This occurs if the file you specified using the utility loader
+        command does not exist or is not a USR file.
+
+50, 'record not present'  
+        The checksum calculated by the disk drive and the checksum at the
+        end of the file differ.
+
+51, 'overflow in record'
+        Either: 1. The end of the file was reached before the checksum
+                   byte was read.
+        or      2. The file contains extra bytes of data after the checksum
+                   byte.
+        Check the length byte in the usr file (position 3, after lo/hi.)
+
+
+
+2. Checking that a file is on the disk.
+
+INTRODUCTION
+
+     If you wrote a program which needed to check that a particular file
+existed on a disk then you would probably open the file for a read, then
+check the error channel for 62, FILE NOT FOUND.
+
+Thus:
+10 OPEN15,8,15
+20 OPEN2,8,2,"filename,P,R"
+30 INPUT#15,E,E$
+40 IFE>0THENPRINTE$:GOTO60
+50 PRINT"FILE EXISTS"
+60 CLOSE2:CLOSE15
+
+     Another way to check if a file exists is to try to rename it as itself.
+
+Thus:
+10 OPEN15,8,15,"R:filename=filename"
+20 INPUT#15,E,E$
+30 CLOSE15
+40 PRINTE$
+
+     If the file exists then the error created is 63, FILE EXISTS,
+otherwise it is 62, FILE NOT FOUND. Judge for yourself which works better.
+
+
+Written, September 93, by Peter Weighill.   email: stuce@warwick.csv.ac.uk
+
+
+
+From: Nicholas.Cull@comp.vuw.ac.nz (Nicholas Cull)
+Newsgroups: comp.sys.cbm
+Subject: Re: 1541 disk drive commands.
+Date: 30 Sep 1993 00:00:20 GMT
+Organization: Dept. of Comp. Sci., Victoria Uni. of Wellington, New Zealand.
+Originator: ncull@comp.vuw.ac.nz
+
+
+In article <28225v$1s3@tansy.csv.warwick.ac.uk>, stuce@csv.warwick.ac.uk
+ (Peter Weighill) writes:
+|> 
+|> 1. The Utility Loader '&' command.
+
+...
+
+|>      A user file has to follow certain guidlines. It is limited to just
+                                                     ^^^^^^^^^^^^^^^^^^^^^
+|> one sector and this sector is constructed as below;
+   ^^^^^^^^^^
+
+This is incorrect. The user file may be more than one sector long, although the
+maximum size of the program code is limited to 256 bytes. To obtain this, byte
+2 (the number of bytes in program) should be set to 0. A formula for this
+would be
+
+(NB AND 255)
+
+where NB is the number of bytes. Remember that the checksum has to be updated
+in a similar way too, eg
+
+ C = C+(NB AND 255): IF C>255 THEN C=C-255
+
+The number of bytes in a Block-Execute command is limited to a single sector,
+which is 256 bytes, although these can be all data bytes. Maybe you were
+confusing the two commands?
+
+|> 
+|> Byte
+|> 0      Start address low  order
+|> 1      Start address high order
+|> 2      Number of bytes in program
+|> 3+     Program code bytes
+|> last   Checksum
+|> 
+
+In fact there can be more than one block of this construction per file. To do
+this, simply repeat the construction. For example, if you wanted to have a
+program which sat in drive locations $0300 to $0400, and $0480 to $0500, the
+construction would be as follows:
+
+Byte
+0             Low byte start address of first block (0)
+1             High byte start address of first block (3)
+2             Number of bytes in this block (0)        [= 256 AND 255]
+3 - 259       Program code for first block (data goes in here...)
+260           Checksum for first block (whatever this may be)
+
+261           Low byte start address of second block (128)
+262           High byte start address of second block (4)
+263           Number of bytes in this block (128)
+264 - 392     Program code for second block (second lot of data here)
+393           Checksum for second block (whatever)
+
+Okay, so this may not be the best description in the world, but hopefully you
+get the general idea. There may be as many blocks of this type as you need,
+and theycan all be any size from 1 to 256 bytes long. Once the file has been
+completely loaded into the drive, execution starts from the start address of
+the FIRST block be be transferred.
+
+|> the total every time it exceeds 255. Thus the checksum byte can range from
+                                        ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+|> 1-255.
+   ^^^^^^
+
+The checksum could be 0 if all the data bytes were 0 :-)
+
+Seriously though, the point of having the checksum calculated in this way is to
+make use of the carry bit in machine code addition if a carry is generated. The
+point can be made more clearly in the following code fragment:
+
+        [accumulator holds current data byte]
+        clc        ;Clear carry bit for first add
+        adc $87    ;Add byte to current checksum
+        adc #$00   ;Add carry bit to checksum
+        sta $87    ;Save checksum to memory
+
+If the sum of the accumulator and the contents of location $87 is greater than
+#$FF then the carry flag will be set, in order to do multi-byte addition
+correctly. Instead of adding this to a second byte however, it is added to the
+same byte which generated the carry. This causes the value in the accumulator
+to be incremented by 1 - the same as if #$FF had been subtracted from it.
+
+If the sum is of the accumulator and the contents of location $87 is less than
+or equal to #$FF, then no carry is generated and no further addition or
+subtractionis needed.
+
+|>      Below is a program which will make it easier for you to create a USR
+|> file in the required format, so that it can be executed by the utility
+|> loader command...
+
+Here is a new version the the program, modified to handle multiple data blocks,
+and a maximum program size of 256 bytes per block:
+
+        10  OPEN2,8,2,"0:&filename,U,W"
+        20  READNB
+        30  READLO,HI,LN:C=LO+HI:C=C+(C>255)*255
+        40  C=C+(LNAND255):C=C+(C>255)*255
+        50  PRINT#2,CHR$(LO);CHR$(HI);CHR$(LNAND255);
+        60  READD:PRINT#2,CHR$(D);
+        70  C=C+D:C=C+(C>255)*255
+        80  LN=LN-1:IFLN>0THEN60
+        90  PRINT#2,CHR$(C);
+        100 NB=NB-1:IFNB>0THEN30
+        110 CLOSE2
+        120 END
+        190 :
+        200 DATA2       :REM number of data blocks
+        210 DATA128,3   :REM lo/hi start address of first block
+        220 DATA6       :REM length of first block
+        230 :            REM program code
+        240 DATA32,71,198,76,0,3
+        300 DATA0,3     :REM lo/hi start address of second block
+        310 DATA26      :REM length of second block
+        320 :            REM rest of program code
+        330 DATA173,0,28,41,16,201,16,208,11
+        340 DATA169,247,45,0,28,141,0,28,76
+        350 DATA0,3,32,24,193,76,0,3
+
+The example code here is just a minor extension to the original code. It
+re-initializes the drive before jumping to the original code. This is just to
+demonstrate that both parts of the code are being loaded and executed
+correctly. 
+
+|> ERRORS THAT CAN OCCUR
+|> 
+|> 51, 'overflow in record'
+|>         Either: 1. The end of the file was reached before the checksum
+|>                    byte was read.
+|>         or      2. The file contains extra bytes of data after the checksum
+                      ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+|>                    byte.
+                      ^^^^^
+|>         Check the length byte in the usr file (position 3, after lo/hi.)
+
+The second condition is not quite accurate. If end-of-file is reached before
+the drive expects to read the checksum, then this error will occur. If extra
+bytes appear after the checksum, the drive assumes these to be the start of a
+new block of data and will try to interpret these as address bytes, length
+byte, data bytes etc as above. When end-of-file appears, the drive will report
+this error, since it is expecting another block of data to appear and cannot
+complete the transfer of this into memory. Hence the definition of this error
+should be:
+
+        The end of the file was encountered unexpectedly. May indicate an
+        incorrect length byte, or additional data written after the end of the
+        last data block.
+
+Note the semicolon at the end of line 90 of the program. If this were omitted,
+a carriage return byte would be sent by the computer after the checksum byte
+and may be the cause of this message.
+
+One caution should be added at this point. Although data may be transferred to
+any address in the RAM of the drive, it should be remembered that part of the
+memory will be allocated to buffering the file as it comes off the disk. Thus
+it may be possible to overwrite incoming data being buffered in memory before
+it can be transferred correctly to its new location. Experimentation may be
+the best way of determining which areas are "safe" and which ones have
+problems. I found that the file seemed to be buffered in locations $0600 to
+$0700, but this would depend on how may files you had open, etc.
+
+Nick.
+
+----
+ email: ncull@comp.vuw.ac.nz    Victoria University of Wellington, New Zealand.
+
--- a/textfiles.com/computers/154xb
+++ b/textfiles.com/computers/154xb
@@ -0,0 +1,112 @@
+
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͻ
+    <20>  Adaptec, Incorporated                             AHA-1540B/42B      <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>͹
+    <20>                       LED    FLOPPY       HARD DRIVE  F1              <20>
+    <20>                      <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ           <20>
+    <20>  Floppy (34 pins)    <20>....  1:::::::   1::::::::::::: ڿ  <20><><EFBFBD><EFBFBD><EFBFBD>       <20>
+    <20>  INT.HD.(50 pins)    <20>                  <20><>2<EFBFBD><32>    <20><>3<EFBFBD><33>ô <20><><EFBFBD>Ŀ        <20>
+    <20>  EXT.HD.(50 pins)    <20>                      <20><>5<EFBFBD><35>     <20><> <20> <20> <20>        <20>
+    <20>                      <20>             J5 1::::::::::::   1: <20> <20> <20>EXT.    <20>
+    <20>  <20><>2<EFBFBD><32>  SCSI BUS     <20>              J6 1::::          :: <20> <20> <20>SCSI    <20>
+    <20>  Term. Resistors     <20> <20><><EFBFBD><EFBFBD><EFBFBD>Ŀ              <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ  :: <20> <20> <20>        <20>
+    <20>                      <20> <20>uCODE<44>   J8 1:::::: <20> BIOS <20>  J7 <20> <20> <20>        <20>
+    <20>  F1: 1.5A, 125V      <20> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> J9 1:::::::: <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>     <20><><EFBFBD><EFBFBD><EFBFBD>        <20>
+    <20>  Term. Power Fuse    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ       ڿ            <20><><EFBFBD>ٺ          <20>
+    <20>                                  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>   <20>          <20>
+    <20>                                                                       <20>
+    <20>  INTERFACE:  ISA(AT)->SCSI-2                                          <20>
+    <20>  CONTROLS:   2 Floppy Drives (1542B only)(360KB, 720KB, 1.2MB, 1.44MB)<29>
+    <20>              7 SCSI Devices                                           <20>
+    <20>                                                                       <20>
+    <20>  J5: General Control                                                  <20>
+    <20>      J5-1: Synchronous Negotiation Enable: *Disabled: (no Jumper)     <20>
+    <20>                                             Enabled: J5-1 Jumpered    <20>
+    <20>                                                                       <20>
+    <20>      J5-2: Diagnostics (Factory use ONLY): *Disabled: (no jumper)     <20>
+    <20>                                                                       <20>
+    <20>      J5-3: SCSI Parity Bit: *Enable Parity: (no jumper)               <20>
+    <20>                              Disable Parity: J5-3 Jumpered            <20>
+    <20>                                                                       <20>
+    <20>      J5-4,5,6: SCSI Address:  0 1 2 3 4 5 6 7   (7 is Default)        <20>
+    <20>                            4  x - x - x - x -                         <20>
+    <20>                            5  x x - - x x - -   (x = Jumpered)        <20>
+    <20>                            6  x x x x - - - -                         <20>
+    <20>                                                                       <20>
+    <20>      J5-7,8: DMA Channel:  0 5 6 7    (5 is Default)                  <20>
+    <20>                         7  x - x -                                    <20>
+    <20>                         8  x x - -                                    <20>
+    <20>                                                                       <20>
+    <20>      J5-9,10,11: Interrupt Chan.:  9 10 11 12 14 15  (11 is Default)  <20>
+    <20>                                 9  -  x  -  x  -  x                   <20>
+    <20>                                10  -  -  x  x  -  -                   <20>
+    <20>                                11  -  -  -  -  x  x                   <20>
+    <20>                                                                       <20>
+    <20>      J5-12,13: DMA Transfer Speed:   5.0  5.7  6.7  8.0  (5.7 is      <20>
+    <20>                                  12   -    x    -    x   Default)     <20>
+    <20>                                  13   -    -    x    x                <20>
+    <20>                                                                       <20>
+    <20>  J6: BIOS/Auto Sense Control:  1 x      1: BIOS Enable                <20>
+    <20>                                2 -      2,3,4: Not Used               <20>
+    <20>                                3 -      5: Auto Sense disable         <20>
+    <20>                                4 -                                    <20>
+    <20>                                5 -      (1 is Default)                <20>
+    <20>                                                                       <20>
+    <20>                                                                       <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͼ
+                                                                            
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͻ
+    <20>   AHA-1540B,1542B                                             Page 2  <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>͹
+    <20>                                                                       <20>
+    <20>  J7: Address Selection                                                <20>
+    <20>                                                                       <20>
+    <20>      J7-1: Floppy Secondary Address  (Default is not jumpered)        <20>
+    <20>                                                                       <20>
+    <20>      J7-2,3,4: AT I/O Port Addr.:  334 330 230 134 130                <20>
+    <20>                                 2   -   x   -   x   -    (Default     <20>
+    <20>                                 3   -   -   x   x   -    is 330h)     <20>
+    <20>                                 4   -   -   -   x   x                 <20>
+    <20>                                                                       <20>
+    <20>     J7-5,6: BIOS Wait State (ns):   0  100 200 300                    <20>
+    <20>                                 5   -   x   -   x        (Default     <20>
+    <20>                                 6   -   -   x   x          is 0)      <20>
+    <20>                                                                       <20>
+    <20>     J7-7,8: BIOS Address:   DC000 CC000 D8000 C8000                   <20>
+    <20>                         7     -     x     -     x        (Default     <20>
+    <20>                         8     -     -     x     x        is DC000)    <20>
+    <20>                                                                       <20>
+    <20>  J8: Floppy Disk Selection:    1: Floppy Enable       (on  Enabled )  <20>
+    <20>                              2,3: DMA REQ. (2 or 3)   (2  DMA REQ.2)  <20>
+    <20>        (1542B only)          4,5: DMA ACK. (2 or 3)   (4  DMA ACK.2)  <20>
+    <20>                              6,7: INT.REQ. (6 or 10)  (6  INT.REQ.6)  <20>
+    <20>                                8: Dual Speed Enable   (off Disabled)  <20>
+    <20>                                                                       <20>
+    <20>  J9: DMA/Interrupt:   1,2,3,4: DMA REQ. (0,5,6,7)     (2  DMA REQ.5)  <20>
+    <20>                       5,6,7,8: DMA ACK. (0,5,6,7)     (6  DMA ACK.5)  <20>
+    <20>              9,10,11,12,13,14: INT.REQ. (9,10,11,                     <20>
+    <20>                                         12,14,15)     (11 INT.REQ.11) <20>
+    <20>                                                                       <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>͸ Additional Info <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>͹
+    <20>                                                                       <20>
+    <20>    This Host Adapter may also be ordered with a high-density SCSI-2   <20>
+    <20> external connector, as part no: 1540B100 or 1542B100.                 <20>
+    <20>                                                                       <20>
+    <20>    SCSI bus terminators MUST be located at each end of the SCSI bus.  <20>
+    <20> If using internal SCSI peripherals only, the terminators on the H.A.  <20>
+    <20> must remain in place, and the device at the farthest point must also  <20>
+    <20> have it's terminators in place.  All devices between must have their  <20>
+    <20> terminators removed.  If using internal AND external peripherals,     <20>
+    <20> the devices at the end of the internal, and external cables should    <20>
+    <20> retain their terminators, and all those between, including the Host   <20>
+    <20> Adapter, should have theirs removed.                                  <20>
+    <20>                                                                       <20>
+    <20>    Adaptec has added support for drives larger than 1GB with their    <20>
+    <20> 3.20 BIOS and uCODE.  When correctly set up, the host adapter will    <20>
+    <20> automatically select the correct translation for the drive.  The      <20>
+    <20> translation for drives over 1GB increases the heads.                  <20>
+    <20>                                                                       <20>
+    <20>   The 154x series is a Bus Mastering Host Adapter, and is well-suited <20>
+    <20> for multi-tasking Operating Systems, such as UNIX and OS/2.           <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͼ
+
--- a/textfiles.com/computers/16550a_n
+++ b/textfiles.com/computers/16550a_n
@@ -0,0 +1,104 @@
+
+
+                         Info on the 16550a UART
+
+       There has been much talk on the echo conference "HST" about a new
+       UART chip.  A UART chip is the 40 pin chip on your serial prort.
+       UART means Universal Asynchronous Receiver Transmitter.  This
+       chip converts an 8 bit byte from parallel to serial and from
+       serial to parallel.  Your computer sends the byte on a PARALLEL 8
+       bit bus to the serial card.  The serial card has to send it
+       SERIALLY to the modem.  And at the same time it adds a START BIT
+       and a STOP BIT.  If you are using a 7 bit format, the UART chip
+       can also add the parity bit, which can be even, odd, zero, forced
+       to 0, or forced to 1.  It can also add 2 stop bits instead of 1
+       stop bit.  And in the case of certain baud rates, it can add 1.5
+       stop bits instead of 1 stop bit.
+
+       Well, a problem cropped up with the HST modem.  To gain the
+       maximum efficiency of this modem, you have to set your serial
+       port to 19,200 baud.  Yes, that is 16 times faster than your
+       normal 1200 baud modem.  Now most computers, even XT's, can keep
+       up with that. But there is a problem caused by some EXPANSION
+       boards like Perstor disk controllers, and Network Interface cards
+       (like Ethernet) that hog, or tie up, the interrupts, or IRQ's.
+       If the other board hogs the interrupts longer than one character
+       time (1/1920th of a second) then the character that is coming in
+       over the serial port is LOST and gone forever.  With a 2400 baud
+       modem, you have a 1/240th of a second 'slack' between characters.
+       (Remember, 8 bits, plus one start bit, plus one stop bit, give
+       you 10 bits (not 8) when talking about modems and serial ports.
+       So you divide bits per second (bps) by 10 to give CHARACTERS per
+       second (cps).  So these problems didn't crop up with modems up to
+       2400 baud.  But when running 9600 baud and 19200 baud, they did
+       show up.
+
+       What was needed was a way to "hold" those characters until the
+       computer could catch up with the serial port.  One way of doing
+       that was making an expensive INTELLIGENT serial card.  You could
+       put some local memory on there and a small microprocessor like a
+       6052 or 8088.  But National Semiconducter went even better!
+       Instead of making the whole card smarter and a whole lot more
+       expensive, they put all the smarts on the UART CHIP!  The new
+       UART chip, called the 16550, has a 16 byte FIFO buffer.  FIFO
+       stands for "first-in-first-out".  With this buffer, the computer
+       can be busy doing something else for up to 16 character times,
+       and no characters will be lost.
+
+       The original UART used in XT computers was the 8250.  This was
+       kind of slow, but adequate for the 4.77 Mhz bus speed of the XT.
+       With the 8 Mhz bus speed of the AT, a faster chip was needed so
+       they used the 16450.  These 2 chips are functionally identical,
+       and are pin compatible.  They have 40 pins each. Actually, you
+       will see many AT computers with a 8250 UART on their serial port.
+
+       The 16550 will work on any serial port that now has an 8250 or
+       16450.  You just replace it.  But you also need some special
+       software to activate the buffer.  Otherwise, the 16550 will act
+       like a 16450 without the buffer.
+
+       There is a program called 16550.EXE which tells the UART to turn
+       on the FIFO buffer, and then the UART is just transparant to
+       whatever communication program you are using.  I have been told,
+       on a TELIX support conference, that Telix 3.11 has 16550 support
+       built in.  I don't know if other popular telecom programs such as
+       Procomm+, Qmodem, and other have it or not.
+
+       There was a user on a local BBS who was having problems even
+       downloading at 2400 baud because he was using Desqview, and
+       running several programs simultaneously.  He installed the 16550,
+       and his problems went away.  Another local sysop using an HST
+       didn't even have any of the "problem boards" mentioned later in
+       this article.  He installed the 16550, and then was able to
+       consistently use 19.2K baud with no problems.  His transfer
+       efficiency rose from 96% to 115%.
+
+       You can obtain the new 16550a complete with new Multi COM card.
+       ($65.00 plus s/h) from Node 66 East BBS 914-426-0729.
+
+       Here are some situations where you *might* benefit from a 16550
+       UART while doing high speed transfers with the serial port:
+
+       1) You have a Perstor controller with an older ROM on it. I have
+          read that some rom versions take care of the IRQ hog problem.
+
+       2) Your computer is on any kind of network.  Network interface
+          cards are notorious for hogging interrupts. (Tho' not all do.)
+
+       3) Your computer is an AT and you are using EXTENDED memory.  The
+          AT has to do a reset and takes a lot of time to switch from
+          protected mode to real mode when its done with accessing
+          extended memory. (Tho' not all AT's have this problem.)
+
+       4) You are running a multi-tasking software like Desqview or
+          DoubleDos and are trying to do communications in the
+          background, and lose characters when switching windows, or
+          have too many background tasks/windows active at the same
+          time.
+
+       5) You are a sysop with an HST modem and are getting less than
+          100% efficiency on your mail transfers.  Many factors affect
+          this, so a 16550 *may* or *may-not* increase your efficiency
+          to over 100%.
+
+
--- a/textfiles.com/computers/1991-12
+++ b/textfiles.com/computers/1991-12
@@ -0,0 +1,942 @@
+From pub-infra-request Tue Dec 10 13:34:55 1991
+Received: by eff.org id AA05611
+  (5.65c/IDA-1.4.4 for pub-infra-exploder@eff.org); Tue, 10 Dec 1991 18:34:57 -0500
+Reply-To: pub-infra
+Precedence: bulk
+To: pub-infra
+Date: Tue, 10 Dec 1991 18:34:55 -0500
+Message-Id: <199112102334.AA05606@eff.org>
+Subject: What is ISDN Good For?
+From: mkapor (Mitch Kapor)
+Sender: ckd
+
+habs@panix.com (Harry Shapiro) writes:
+
+"What applications that require ISDN can't already run with existing
+products like switched 56 kbit, and 14,400 modems?"
+
+Switched 56 kilobit service has the same order of bandwidth as 64 kbit
+ISDN, but its availability is strikingly different.  Switched 56 is not
+intended to be a residential service.  Our vision of ISDN is that you
+simply order it the way you order an additional voice-grade phone line.
+Further, we believe ISDN must be priced like voice telephone service.
+Switched 56 is not priced like voice service.  It is much more
+expensive.  ISDN must be ubiquitous and affordable.  Switched 56, while
+useful for businesses which can afford expensive installation and fees
+is not.
+
+The ISDN rate of 64 kb is at the critical threshold which will permit
+interactive multimedia using video and audio compression.  14.4 is
+simply too slow, even with compression, for videotelephony, much less
+other more demanding forms of video.  Before it is argued that the
+effective rate of a V.32bis modem is not 14.4 kb, but 14.4 kb plus
+compression effects, let me point out that the same compression
+techniques can and will be applied over 64 kb ISDN lines, boosting its
+effective rate by an equivalent factor of two to four.
+
+While it is still considered heretical in some quarters to assert that
+VHS-quality video will be possible over a 64 kb line, there is a growing
+consensus among researchers at the cutting edge of work in this area
+that that is exactly where we are headed.  In such a scenario, using
+desktop personal computers of the year 1995 as video production studios,
+everyone with access to a PC and ISDN potentially becomes a video
+producer, with ISDN as the switched distribution network providing video
+dial-tone.  This will open the floodgates of innovation in video,
+acheiving the richness of video (not passive, but interactive) with the
+type of diversity heretofore associated only with print.
+
+Beyond ISDN are other protocols which can run over copper-pairs, such as
+ADSL, which runs at 300 kb /second.  More on that later.
+
+Mitchell Kapor
+Electronic Frontier Foundation
+
+
+
+
+From pub-infra-request Tue Dec 10 13:33:37 1991
+Received: by eff.org id AA05564
+  (5.65c/IDA-1.4.4 for pub-infra-exploder@eff.org); Tue, 10 Dec 1991 18:33:39 -0500
+Reply-To: pub-infra
+Precedence: bulk
+To: pub-infra
+Date: Tue, 10 Dec 1991 18:33:37 -0500
+Message-Id: <199112102333.AA05559@eff.org>
+Subject: ADSL
+From: mkapor (Mitch Kapor)
+Sender: ckd
+
+ habs@panix.com (Harry Shapiro) writes:
+
+ If we really want to have competition for the Cable and Telco
+ companies we need a digital product that can let Telco deliver movies
+ and entertainment at VCR quality and above...  It is within the
+ technical ability of cable companies to offer phone service, plus
+ cable and other people offering PCN.
+ 
+ ADSL can be used to offer VCR quality video, using compression
+ techniques to most homes.
+ 
+ ADSL, is a T1 speed (1.54 mbits) connection into the home
+ with a 16 kbit up to 144 kbit bi-directional (base rate isdn)
+ connection.
+ 
+ Uncompressed CD audio, compressed NTSC, computer graphics, etc.  All
+ this can be offered within a T1 rate. (All most anything we (as
+ consumers) want, t1 could do...  Yes some of us want 45 mbits and
+ some of us what even more....
+ 
+ ADSL (Asymmetrical Digital Subscriber Line) is still in field trials.
+ It will be in trials in the 92/94 time frame...
+ 
+ The sept. 16, 1991 -page 18- issue of computer world reports,
+ 
+ "ADSL, developed by Bell Communications Research Inc., (Bellcore)
+ delivers a bitstream of 1.5M bit/sec. to homes with two-way,
+ Basic-Rate Integrated Services Digital Network (ISDN)"
+ 
+ 
+ The August 26 th 1991 issue of FIBER OPTIC NEWS on page 8, reports,
+ 
+ "VCR quality television, voice and data can be sent simultaneously
+ over a single cooper telephone line... The achievement is possible
+ because of ... ADSL which uses digital signal processing techniques
+ and experimental very-large-scale integrated (VLSI) circuitry."
+ 
+ 
+ The June 10th issue of Telephony on page 27 reports,
+ 
+ "ADSL... has a design goal of 18,000 feet on just one copper pair....
+ 
+ The Technology
+ 
+ The anticipated range of ADSL equipment using quadrature amplitude
+ modulation (QAM) is from 0 to 18,000 feet. About 75% of residential
+ telephone customers are served today on non-loaded facilities less
+ than 18,000 feet from the CO."
+
+[We agree.  ADSL sure sounds like a good thing.  We are finding out what
+Bellcore and RBOC deployment plans are, if any. As previously noted, we
+think video over ISDN is a valid medium.  But faster is clearly better,
+especially if it still runs over copper. -MK]
+ 
+ My point being lets not spend public money on things like ISDN,
+ when something better and more useful is coming.
+
+[We're not advocating spending large amounts of additional public money on
+ISDN.  Telco plant modernization for digital switches etc. is going to
+happen whether or not consumers get ubiquitous, affordable ISDN.  We're
+paying for it anyway.  -MK]
+
+
+
+From pub-infra-request Tue Dec 10 13:35:47 1991
+Received: by eff.org id AA05634
+  (5.65c/IDA-1.4.4 for pub-infra-exploder@eff.org); Tue, 10 Dec 1991 18:35:50 -0500
+Reply-To: pub-infra
+Precedence: bulk
+To: pub-infra
+Date: Tue, 10 Dec 1991 18:35:47 -0500
+Message-Id: <199112102335.AA05629@eff.org>
+Subject: Initial Positive Response to the Open Platform Proposal
+From: mkapor (Mitch Kapor)
+Sender: ckd
+
+The initial response to the Open Platform concept has been extremely
+positive in many quarters.
+
+1. Congress 
+ 
+In a letter to Mitchell Kapor from the Chairman of the Subcommittee with
+primarily jurisdiction over telecommunications policy dated November 5,
+1991,  Representative  Edward J. Markey complemented Mitchell Kapor on his
+"insights on the development of a national public information
+infrastructure" which "were appreciated greatly by myself and the Members
+of the Subcommittee." 
+
+Chairman Markey, writing to Mitch Kapor as a representative of the computer
+industry, called for other leaders in the industry to participate more
+actively in the policy process.  The letter states:
+
+"In crafting the right policies [for the telephone network], the assistance
+of you and your colleagues in the computer industry is critical if we are
+to bring the benefits of advanced information technology to the American
+public.  As I said at the hearing, we need to pursue policies that
+encourage the Bell companies to work with other sectors of the
+communications industry to create a consumer-oriented, public information
+network. Please let me or my staff know what policies you and others in the
+computer industry believe would best serve the public interest in creating
+a reasonably priced, widely available network in which competition is open
+and innovation rewarded.  I also want to learn what lessons from the
+computer industry over the past ten to fifteen years should apply to the
+current debate on structuring the information and communications networks
+of the future....I ask your help in gaining input from the computer
+industry so that the Subcommittee can shape policies that will bring this
+spirit of innovation and entrepreneurship to the information services
+industry.  
+
+Key members on the Senate Commerce Committee have also expressed serious
+interest in the proposal and for it to be further developed in cooperation
+with others in the computer industry.  We have agreed to reach out to
+leaders in the computer industry such as yourself to obtain your input and
+seek your participation in this policy process.
+
+
+2. Communications Industry
+
+Since unveiling the proposal, Mitchell Kapor and Jerry Berman, EFF's
+Washington Office Director, have met with top officials of many of the
+communications and electronic publishing firms involved in the current
+debate, including the American Newspaper Publishers Association, the
+National Cable Television Association, Dun and Bradstreet, AT&T, and the
+Electronic Publishers Association.  All have expressed enthusiasm about the
+Open Platform concept and have urged that we develop the proposal in more
+detail.  They want to know if it is both economically and technically
+feasible to deploy a feature rich ISDN or whether innovation must await the
+full and costly deployment of  residential fiber optics.
+
+
+3. Consumer Groups
+
+On November 25, 1991 the Communications Policy Forum, a consumer forum
+cosponsored by the Consumer Federation of American, the Electronic Frontier
+Foundation, and the American Civil Liberties Union, met to discuss the
+future of telecommunications policy in the wake of the court's decision to
+permit the RBOCS to engage in information services.  At this meeting, EFF
+presented the Open Platform Proposal as a necessary part of any legislation
+that seeks both to establish fair competition as well as innovative health,
+education, and other information services.   Consumer groups expressed
+great interest in the idea and called on EFF to develop its concept further
+and to use the Communications Policy Forum as a mechanism for developing a
+more detailed open platform design for further consumer review in early
+1992.
+
+
+
+From mkapor Tue Dec 10 14:43:29 1991
+Received: by eff.org id AA07520
+  (5.65c/IDA-1.4.4 for pub-infra-exploder@eff.org); Tue, 10 Dec 1991 19:43:53 -0500
+Reply-To: pub-infra
+Precedence: bulk
+To: pub-infra
+Date: Tue, 10 Dec 1991 19:43:29 -0500
+Message-Id: <199112110043.AA07515@eff.org>
+From: mkapor (Mitch Kapor)
+Subject: Tutorial on Telephone network architecture
+
+[Tim Gorman <71336.1270@compuserve.com> provides the following useful
+tutorial on ISDN in the telephone network. -MK]
+ 
+Probably the first comment that needs to be made about ISDN availability is
+the capability of the network to provide the service. There are several
+pieces of the network involved in providing the service and all must be
+available or none of the rest are useful. Basically these consist of:
+    1. local subscriber outside plant facilities
+        a. copper pairs
+        b. Subscriber carrier (either copper or fiber based)
+    2. Central Office line card modules (and corresponding line cards)
+    3. Central office line concentrating modules (primarily software)
+    4. Central office interoffice trunk modules
+    5. Central office switch generics
+ 
+ 
+Central office
+---------------
+ 
+First, some generic background on central office switch architecture is
+needed. For the most part, the following descriptions apply to all
+digital central offices regardless of vendor.
+ 
+  |      |     |     |     |             |     |         |
+  |dist. |_____|line |_____|concentrating|_____|switch   |__________
+  |frame |     |cards|     |module       |     |fabric   |         |
+  |      |     |     |     |             |     |interface|         |
+  |______|     |_____|     |_____________|     |_________|         |
+     |                                                             |
+     |                                                             |
+     |                                        |          |         |
+  Subscriber                                  |trunk     |         |
+  Outside                interoffice  ________|interface |_________|
+  Plant                  facilities           |module    |
+                                              |__________|
+ 
+ 
+                     |          |   (controls the interoperation of
+                     |Central   |    the modules and some of the
+                     |Processing|    complex internal operations)
+                     |Unit (CPU)|
+                     |__________|
+ 
+ 
+ 
+ 
+The line card module, concentrating module, and switch fabric module are
+all
+smart, highly sophisticated pieces of equipment. Although some call them
+"multiplexing" equipment, in essence they are all dedicated purpose
+computers. As such, they all have software (or firmware or whatever is
+appropriate to the vendors architecture and jargon) which dictate their
+operation. In many cases, this software is arranged as various packages or
+"features" that are licensed (via a right-to-use fee) from the vendor.
+These
+software features include software for the various module operations as
+well
+as for the CPU "generic" software. ISDN functionality is usually included
+as
+one or more of these features (e.g. basic ISDN, D-channel packet, D-channel
+backup could all be different feature packages).
+ 
+There may be multiple physical variants of each module for use in providing
+different serving arrangements in different switches. These may also many
+times be distinguished by different pricing levels. At least one vendor has
+available a standard, analog line card/line drawer/line frame module and a
+different ISDN, 2B1Q compatible line card/line drawer/line frame module.
+The
+2B1Q ISDN line frame module is to be upgraded in 1992 to be physically and
+software compatible with all standard analog line cards as well as the ISDN
+2B1Q line cards.
+ 
+ 
+Network
+-----------
+ 
+Making ISDN a viable service will require providing the right physical
+equipment and software in the network. Individual physical pieces that
+will need to be considered are:
+ 
+    a. line terminating equipment
+    b. interoffice trunking equipment (for 64kb clear channel signaling)
+    c. interoffice facilities (for 64kb clear channel signaling)
+    d. subscriber loop carrier equipment
+ 
+ 
+It is probable that most existing line terminating equipment is not ISDN
+capable. The primary reason in most cases will probably have to do with the
+need for splitting off the D-channel signaling and routing it through the
+switch to the necessary processing modules. Most existing line module
+equipment just doesn't provide for this. This does, of course, depend on
+the switch vendors equipment design.
+ 
+Most trunk interface module equipment now in use is not 64kb clear channel
+signaling capable. For at least two major switch vendors, making the
+equipment capable will not require provisioning new equipment modules but
+will require adding "common equipment" to the existing modules. The common
+equipment consists of additional plug-in boards providing the necessary
+functionality. The major problem with this upgrade is the complexity of
+adding these plug-ins. If you have a trunk interface module that handles
+twenty DS-1 lines and they are all in service only two approaches are
+available. You can obtain "turn-down releases" on all of the circuits,
+busy them out, perform appropriate maintenance activity on the interface
+module, add the new circuit packs, download any needed software to the
+trunk interface peripheral, and then reverse the previous steps to put the
+circuits back in service. The alternative is to provide a "conversion"
+trunk interface module (properly equipped of course), transition all DS-1
+lines from the next module to be converted to the conversion module,
+convert
+the just vacated one, and then continue the process with the next module in
+line and the one that was just converted. Both methods are VERY manpower
+intensive and therefore expensive to perform. It is also not a quick
+process
+in terms of overall interval. Manpower must be allocated to this task when
+other, higher priority service-impacting activities are not pending.
+ 
+Providing full ISDN capability in the interoffice facility network is much
+like providing it in the central office trunk interface modules.
+Multiplexing
+equipment, fiber terminating bays, line repeaters, etc. must be changed out
+or upgraded. The major complicating factor here is the number of circuits
+that can be involved and the resulting service impacts.
+ 
+Subscriber Loop Carrier
+--------------------------
+ 
+Subscriber Loop Carrier (SLC) was developed to take advantage of DS1
+signaling to save outside plant investment. By using two pairs to provide
+a DS1 span with a capability of 24 circuits, a savings of 22 pairs could be
+realized. Most Subscriber Loop Carrier (SLC) equipment being provided today
+operates much in the same fashion as standard T-1 equipment. This means
+each
+individual module provides some kind of grouping of 24 56kb lines.
+Different
+vendors provide different line capacities such as AT&T's SLC-96 (tm?)
+equipment. In order to provide full ISDN capability the equipment must
+first
+be upgraded to provide 64kb channel service instead of 56kb. Then the
+appropiate plug-in cards must be installed to interface with the actual
+pair
+going toward the subscribers location. The major concern in this serving
+arrangement will be the impact on equipment quantities. To serve 2B+D at a
+160kb rate will probably require three channels (64kb * 3 = 192kb) on the
+SLC module. A large penetration of ISDN could result in having to increase
+equipment investment to a level of about three times what it is now. Some
+investigation also is needed to determine if ISDN and standard analog lines
+can co-exist on the same SLC module. If not, even a small penetration of
+ISDN could result in a large requirement for additional equipment.
+ 
+Generic SLC architecture looks as follows:
+ 
+                                                                        24
+              24                                                
+subscribers
+ |         | Lines |     |       |SLC     |     DS1      |        |    __
+ |Line     |       |Dist |       |Central |              |SLC     |  o/  \o
+ |Interface|_______|Frame|_______|Office  |_____//_______|Remote  |____/\
+ |Module   |       |     |       |Terminal|    //        |Terminal|   /  \
+ |_________|       |_____|       |________|              |________|   ----
+                                              2 lines
+                                           (1-transmit)
+                                           (1-receive )
+ 
+ 
+ 
+ 
+ 
+The arrangement shown here is what is generically termed "dedicated" mode.
+Each subscriber has a channel to the switch available at all times. Most
+vendors offer enough intelligence in their terminals (usually via
+additional
+plug-ins) to also provide concentration ratio's ranging from 48 subscribers
+vying for 24 channels (2:1) to as high as 5:1. This would mean that of the
+120 customers connected to the remote terminal, only 24 could have calls in
+progress at once.
+ 
+One primary reason for for SLC equipment not being exactly like standard T1
+systems is the need to provide for additional signaling modes required in
+the
+loop plant. Interoffice trunk signaling generally uses what is termed
+2-State
+signaling. The far end can signal you as either off-hook or on-hook
+(busy/idle, seizure/idle, etc.) Similarly, you can signal the far end an
+off-hook or on-hook. Physically, this signaling can take many forms: loop
+closed/loop open, battery reversal/normal battery, E lead ground/E lead
+open,
+etc. Basic station service typically uses 3-State signaling from the
+Central
+Office (CO) toward the station and 2-State from the station to the CO. The
+CO
+needs to signal battery applied to the line, battery not applied to the
+line,
+and alerting (usually ringing voltage). Special stations such as ground
+start
+lines or coin lines can use 3-State signaling or even higher (the CO needs
+to signal a coin station for coin collect, coin return, dialing pad enable,
+dialing pad disable, and ringing among others). This requires the SLC
+equipment to encode the signaling information in the PCM bitstream
+differently than standard T1.
+ 
+As an enhancement to this service, some switch vendors make what is termed
+"integrated" SLC modules for their switches. All this really does is take
+the
+central office terminal and integrate it directly into the switch
+architecture. The DS1 lines from the remote terminal can then be terminated
+directly on the central office switch. This architecture has never "caught
+on" in this area because of the difficulty in maintaining load balance
+objectives (i.e. you can't move a high usage line to a low usage line
+interface module to keep switch usage in balance without moving at least
+23 other customers).
+ 
+ 
+ 
+ 
+Interoffice Facilities
+----------------------
+ 
+In general, interoffice facilities are arranged as follows:
+ 
+ 
+ 
+  |         |________|           |        |                 |
+  |CO       | DS1    |DS1        |        |Light Fiber      |
+  |Trunk    |________|to         |        |Terminating Bay  |
+  |Interface|________|DSx        |________|     or          |______\ WORLD
+  |Module   |________|Multiplexer|        |Digital Radio Bay|      /
+  |_________|        |___________|        |_________________|
+ 
+           LFTB  - Light Fiber Terminating Bay
+           DRB   - Digital Radio Bay
+           MUX   - DS1-to-DSx Multiplex/Demultiplex Bay
+           DSX   - Digital Signal X-conn (cross-connect) Bay
+           COTIM - Central Office Trunk Interface Module
+           DCS   - Digital Crossconnect System
+ 
+A more detailed breakdown of a CO would look as follows:
+ 
+                                                               (fiber)
+             |   |_____|    |                           |    |
+             |  /|     |    |             _|   |________|LFTB|____\  WORLD
+  |     |____|/  |_____|DACS|    _|   |   _|   |        |____|    /
+  |COTIM|    |  /|     |____|    _|   |   _|DS3|
+  |     |    |  \|________________|MUX|____|DSX|________|    |
+  |     |____|DSX|________________|   |   _|   |        |LFTB|_____\ WORLD
+  |_____|    |___|                |___|   _|___|        |____|     /
+ 
+ 
+Instead of the fiber shown in this drawing, digital radio or cable based
+T1,
+T1C, and T2 may be used in the interoffice plant.
+ 
+Each piece of equipment in this arrangement must be capable of 64kb clear
+channel signaling or it cannot be made available on an end-to-end basis.
+For
+service protection, the trunk paths between two end points are usually
+spread over as wide a range of equipment as possible. Thus, providing 64kb
+clear
+channel capability for certain interoffice connections may involve updating
+a significant amount of equipment in the central office.
+
+
+
+
+
+
+From mkapor Wed Dec 11 12:17:32 1991
+Received: by eff.org id AA05481
+  (5.65c/IDA-1.4.4 for pub-infra-exploder@eff.org); Wed, 11 Dec 1991 17:17:35 -0500
+Reply-To: pub-infra
+Precedence: bulk
+To: pub-infra
+Date: Wed, 11 Dec 1991 17:17:32 -0500
+Message-Id: <199112112217.AA05476@eff.org>
+From: Russ Nelson <nelson@cheetah.ece.clarkson.edu> (by way of mkapor@eff.org
+ (Mitch Kapor))
+Subject: Tutorial on Telephone network architecture
+
+
+> [Tim Gorman <71336.1270@compuserve.com> provides the following useful
+> tutorial on ISDN in the telephone network. -MK]
+
+Tim left off the subscriber end, perhaps because this is more common
+knowledge.  But I'll fill it in anyway...
+    
+Everyone knows that ISDN carries synchronous 2B+D, and that each B is
+64Kbps packet or circuit switched, and the D is 16Kbps packet
+switched.  Synchronous means that the data is constantly flowing at
+the specified rate.  Most modems in use today use asynchronous
+transmission, which means that each chunk of information has a
+starting indication and an ending indication.
+
+Packet switched means that the stream of bits is formatted
+into packets, and each packet is transported as a unit.  Circuit
+switched means that the stream of bits goes from one end to another
+without being interpreted by the switching equipment.
+
+There are two different flavors of 2B+D: U and T.  ANSI has defined
+two different interfaces in the customer's premises, T (or S/T) and U.
+The U interface connects directly to the switch over a 0 to 18,000 foot
+loop, and uses one pair.  The T interface connects to the U interface
+through a signal converter called an NT1.  It uses two pair (transmit and
+receive) and runs at most 1,000 feet.
+
+The U interface is electrically more sophisticated.  The transmission
+rate is 80Kbaud and each pair of bits is encoded into four different
+voltage levels.  This makes the data rate 160Kbps, plus it transmits
+and receives in both directions at the same time.  It does this by
+knowing what it's sending, and subtracting that from what it's
+receiving.  Then it digitally filters the result.  This is necessary
+because the local loop to your premises may contain multiple changes
+in impedance.  That happens when your wire gauge changes, or you have
+a tee connection.  These impedance changes muddy the digital signal.
+
+There can be only one device on the U interface, most probably an NT1.
+The T interface, on the other hand, can be shared between multiple
+devices.  This is done because you can hang a telephone, a modem, and
+a FAX machine off the same phone line.  When a FAX machine calls you,
+your FAX machine answers.  When a modem calls you, your modem answers,
+etc.
+
+There are three concerns with ISDN:
+
+  o Powering
+  o Wiring
+  o Extensions
+
+Powering
+
+The current telephone network (POTS -- Plain Old Telephone Service
+[seriously]) is powered by the central office.  Ever notice that your
+phone has a "REN"?  That stands for Ringer Equivalence Number.  It's
+given in units of the standard telephone bell.  Your central office
+can ring about five of these bells.  If the total of all your RENs is
+over five, then your phone may not ring.
+
+ISDN, on the other hand, uses no power from the central office.  That seems
+like an advantage, but what happens when you lose local power.  The central
+office still runs because it has its own batteries.  But you can't make
+calls unless you have your ISDN sets on a UPS.
+
+Wiring
+
+POTS phones can and have been wired willy-nilly, in a star configuration,
+or bus.  Because only two wires are necessary, sometimes only two wires
+work.
+
+ISDN, on the other hand, requires a single stretch of wire with terminators
+on both ends, and it requires four wires.
+
+Extensions
+
+POTS sets can join into an existing phone call simply by going off hook.
+Only one ISDN set can communicate on a B channel at a time.  That means
+that only the originating or receiving set can communicate.  All the
+other sets cannot transmit or receive.
+
+--russ <nelson@clutx.clarkson.edu> I'm proud to be a humble Quaker.
+Peace is not the absence of war.  Peace is the presence of a system for
+resolving conflicts before war becomes necessary.  War never creates peace.
+
+
+
+From mkapor Thu Dec 12 14:46:57 1991
+Received: by eff.org id AA14385
+  (5.65c/IDA-1.4.4 for pub-infra-exploder@eff.org); Thu, 12 Dec 1991 19:47:06 -0500
+Reply-To: pub-infra
+Precedence: bulk
+To: pub-infra
+Date: Thu, 12 Dec 1991 19:46:57 -0500
+Message-Id: <199112130046.AA14379@eff.org>
+From: peterm@halcyon.com (Peter Marshall) (by way of mkapor@eff.org (Mitch Kapor))
+Subject: Article on "The Argument Against ISDN"
+
+...Let's set the mirrors aside and see what we really have with ISDN:
+ ISDN provides 64 kilobit digital, full-duplex data. It does so to any
+ other ISDN line when using a carrier that is fully digital, compatible
+ and offers the service.
+ ISDN provides point-to-point connections, similar to a telephone.
+ Connections can be established in a few seconds.
+ ISDN provides several enhanced features, such as calling line 
+ identification and data privacy....
+Telephone companies invariably fear new technology.... New technology
+upsets rate structures. And new technology upsets *the natural order of 
+things.*
+ISDN is a new technology.... ISDN represents competition to local 
+dialtone loops.... There are many questions. The traditional telco 
+response is simple: Charge a high enough price that these concerns 
+simply go away because of the profits generated....
+implementation of ISDN has involved changing out central office lines. 
+Designing $1000 boxes for the customer end. It has meant converting the 
+*entire* public nationwide network to an all-digital one. In short, ISDN 
+was designed to take more than a decade to implement....
+ISDN has some serious "reality checks" to go through to succeed. And
+unless it can pass that reality check, it will be increasingly a fantasy. 
+Back when it was just a dream, it might have made sense to charge twice 
+as much for an ISDN call....
+But today, modems are equally fast, and thus ISDN *cannot* cost more per 
+minute if it is to succeed in the mainstream marketplace.
+Because not everybody has ISDN lines to every desktop, ISDN has less 
+effective connectivity than a modem. And this, too, reduces the value of 
+ISDN.
+Because telephone companies are in no position to prevent independent 
+competitive technology from being introduced, they will have to compete. 
+The cost of installing an ISDN line must be low.... The cost of ISDN 
+terminal equipment must be lowered....
+What can be done to preserve the potential benefits of ISDN's ubiquitous 
+digital service...?
+ISDN is better suited for some types of data than modems will be for 
+perhaps another five years.... ISDN achieves its 64,000 bits per second 
+speed *without* compression. This could be a tellingly significant 
+point.... ISDN can combine a voice line with a data line for 
+simultaneous use. This can eliminate the need for a second line....
+ISDN, being a network service, may combine to offer X.25-like capability. 
+This means that a single ISDN termination could maintain many 
+simultaneous "virtual" connections through a packet-switched network....
+To widely succeed, ISDN needs an aggressive posture. Terminal equipment 
+costs must be affordable(or lower), per minute rate charges must be 
+comparable(or lower), and efforts need to be made to achieve 
+compatability with existing software.
+Otherwise, ISDN will merely service your Group IV FAX machine and your 
+desktop video system. Maybe this is enough for your telephone company. 
+But is it really enough for you?...
+
+
+
+--
+  The 23:00 News and Mail Service - +1 206 292 9048 - Seattle, WA USA
+                          PEP, V.32, V.42bis
+                  +++ A Waffle Iron, Model 1.64 +++
+
+
+
+From mkapor Fri Dec 13 10:17:35 1991
+Received: by eff.org id AA15057
+  (5.65c/IDA-1.4.4 for pub-infra-exploder@eff.org); Fri, 13 Dec 1991 15:17:38 -0500
+Reply-To: pub-infra
+Precedence: bulk
+To: pub-infra
+Date: Fri, 13 Dec 1991 15:17:35 -0500
+Message-Id: <199112132017.AA15051@eff.org>
+From: <frankston!Bob_Frankston@world.std.com> (by way of mkapor@eff.org (Mitch
+ Kapor))
+Subject: Re: What is ISDN Good For?
+
+
+It seems that the main attribute of interest in ISDN is the (relatively)
+high 
+bandwidth.  Actually, this it is modest compared with other media (such as 
+cable TV and newspapers), but still better than standard phone lines.
+
+But there are other aspects that I'm more concerned about including:
+
+* Ideally, ISDN should provide peer protocols between my premises equipment
+
+and the central offices in terms of controlling connections and accessing 
+network resources.  I should also be able to provide services.  A simple 
+example is call forwarding -- I should be able to implement this locally.  
+One advantage of a local implementation is the ability to add policies.  
+These protocols should support queries about pricing and other service 
+aspects.
+
+* For data transmission I need to be able to connect to multiple services 
+using either a datagram capability or multiple virtual circuits.  This
+should 
+be a standard offering so that I can build software that takes advantage of
+
+it.
+
+* Addressing (phone number) issues should be cleaned up over the current 
+system so that I have a uniform way of addressing resources on the network.
+ 
+I.e., no dial "9" for an outside line.  But this should be extended to 
+subaddressing as in specifying an extension number, a person or service.  
+This is similar to DID but universal without the high costs of a DID trunk.
+
+This is extending the view of what ISDN is.  For example, I should be able
+to 
+use standard ISDN protocols to pass the additional data bits to a pager. 
+(Of 
+course, the character set should be Unicode and not just digits).
+
+* Of course, pricing should be such that casual connection to network 
+services for many hours should be comparable to the price for an unmeasured
+
+service line.  The current message unit pricing assumes that the use of the
+
+phone is an unusual event.  If it is our connection to the communications 
+infrastructure then the default is to be connected and use of a modest size
+
+information pipe should be negligible  Perhaps a better price comparison 
+would be to the newspaper.  Getting the newspaper delivered via ISDN should
+
+not cost more than getting some ink laden woodpulp hand carried to my
+house.
+
+In reading the notes about the physical wiring for ISDN, I'm concerned
+about 
+ISDN being an MIS manager dream and an end user's Procrustean bed.
+
+
+
+From mkapor Wed Dec 18 06:32:35 1991
+Received: by eff.org id AA07893
+  (5.65c/IDA-1.4.4 for pub-infra-exploder@eff.org); Wed, 18 Dec 1991 11:32:38 -0500
+Reply-To: pub-infra
+Precedence: bulk
+To: pub-infra
+Date: Wed, 18 Dec 1991 11:32:35 -0500
+Message-Id: <199112181632.AA07888@eff.org>
+From: Mitchell Kapor <mkapor>
+Subject: if you haven't seen this....
+
+
+------- Forwarded Message
+
+MessageName: (Message 103)
+
+From:    dae@world.std.com (Dwight A Ernest)
+Date:    Wed, 18 Dec 91 08:53:44 -0500
+To:      isdn@list.prime.com
+
+Subject: ISDN in Japan and USA: Contrasts
+
+
+I pass without comment a posting from Usenet's comp.dcom.telecom newsgroup
+by Jim Haynes:
+
+> From: haynes@cats.UCSC.EDU (Jim Haynes)
+> Newsgroups: comp.dcom.telecom
+> Subject: ISDN in Japan and USA
+> Message-ID: <telecom11.1018.4@eecs.nwu.edu>
+> Date: 12 Dec 91 00:40:47 GMT
+> Organization: University of California, Santa Cruz
+> X-Telecom-Digest: Volume 11, Issue 1018, Message 4 of 12
+>  
+> At the Sun User Group conference this week a lunch speaker was David
+> S. H. Rosenthal of SunSoft.  He remarked that in Japan one can just
+> call the telephone company and ask to have your home service converted
+> to ISDN and it will be done the next day, no charge for the conversion
+> and no extra charge for ISDN service.  He contrasted with the U.S.
+> where if you can get it at all ISDN is available only at high cost.
+>  
+> He also noted that ISDN pay phones are becoming common in Japan; they
+> have an RJ-45 jack on the side.
+>  
+>  
+> haynes@cats.ucsc.edu   haynes@cats.bitnet
+
+
+------- End of Forwarded Message
+
+
+
+
+From mkapor Wed Dec 18 10:36:54 1991
+Received: by eff.org id AA15169
+  (5.65c/IDA-1.4.4 for pub-infra-exploder@eff.org); Wed, 18 Dec 1991 15:37:00 -0500
+Reply-To: pub-infra
+Precedence: bulk
+To: pub-infra
+Date: Wed, 18 Dec 1991 15:36:54 -0500
+Message-Id: <199112182036.AA15160@eff.org>
+From: fujisawa@sm.sony.co.jp (Kenji Fujisawa) (by way of Mitchell Kapor
+ <fujisawa@sm.sony.co.jp>)
+Subject: Re: ISDN in Japan and USA
+
+
+In article <telecom11.1018.4@eecs.nwu.edu>, haynes@cats.UCSC.EDU 
+(Jim Haynes) says:
+
+> He remarked that in Japan one can just call the telephone company
+> and ask to have your home service converted to ISDN and it will be
+> done the next day, no charge for the conversion and no extra charge
+> for ISDN service.
+
+It's overstated.  The time for instllation varies between one week to
+six months depending on the area, the availability of the digital
+exchanges.  And you have to pay an instllation fee of about $100 -
+$150.  Futermore, the monthly charge becomes twice of the analog
+telephone: ie, about $35.
+
+
+Kenji Fujisawa    fujisawa@sm.sony.co.jp
+
+[we are working on getting the mail headers to be more precise. - MK]
+
+
+From mkapor Thu Dec 19 06:25:32 1991
+Received: by eff.org id AA18415
+  (5.65c/IDA-1.4.4 for pub-infra-exploder); Thu, 19 Dec 1991 11:25:38 -0500
+Date: Thu, 19 Dec 1991 11:25:32 -0500
+Message-Id: <199112191625.AA18409@eff.org>
+From: uunet!decwrl!apple!well!hlr@world.std.com (Howard Rheingold) (by way of
+ Mitchell Kapor <uunet!decwrl!apple!well!hlr@world.std.com>)
+Subject: Re: ISDN in Japan and USA
+Precedence: bulk
+To: pub-infra (pub-infra mailing list)
+
+
+For Kenji Fujisawa (fujisawa@sm.sony.co.jp) via Mitchell Kapor:
+
+What do people get for their ISDN connection in Japan? What services
+are offered? What kind of people use them? 
+
+
+
+From mkapor Sat Dec 21 05:45:58 1991
+Received: by eff.org id AA04122
+  (5.65c/IDA-1.4.4 for pub-infra-exploder); Sat, 21 Dec 1991 10:46:02 -0500
+Date: Sat, 21 Dec 1991 10:45:58 -0500
+Message-Id: <199112211545.AA04117@eff.org>
+From: peterm@halcyon.com (Peter Marshall)
+Subject: Re: U.S. SAID TO PLAY FAVORITES IN PROMOTING NATIONWIDE COMPUTER NETW
+Precedence: bulk
+To: pub-infra (pub-infra mailing list)
+
+
+>From psi.com!com-priv7-forw Thu Dec 19 10:49:25 1991 remote from halcyon
+Received: by halcyon.com (1.65/waf)
+        via UUCP; Thu, 19 Dec 91 17:50:54 PST
+        for peterm
+Received: from psi.com by sumax.seattleu.edu with SMTP id AA01734
+  (5.65a/IDA-1.4.2 for peterm); Thu, 19 Dec 91 10:49:25 -0800
+Received: by psi.com (5.61/2.1-PSI/PSINet)
+        id AA04534; Thu, 19 Dec 91 00:52:09 -0500
+Received: from fernwood.mpk.ca.us by psi.com (5.61/2.1-PSI/PSINet)
+        id AA04497; Thu, 19 Dec 91 00:50:23 -0500
+Received: by fernwood.mpk.ca.us; id AA09124; Wed, 18 Dec 91 21:53:00 -0800
+Message-Id: <9112190553.AA09124@fernwood.mpk.ca.us>
+To: members@farnet.org, regional-techs@merit.edu, com-priv@psi.com
+        co+re@ans.net
+Subject: U.S. SAID TO PLAY FAVORITES IN PROMOTING NATIONWIDE COMPUTER
+NETWORK
+Date: Wed, 18 Dec 91 21:52:57 PST
+From: the terminal of Geoff Goodfellow <geoff@fernwood.mpk.ca.us>
+
+U.S. SAID TO PLAY FAVORITES IN PROMOTING NATIONWIDE COMPUTER NETWORK
+By John Markoff
+c.1991 N.Y. Times News Service
+
+   Just one week after President Bush signed legislation calling for the
+creation of a nationwide computer data "superhighway," a debate has erupted
+over whether the government gave an unfair advantage to a joint venture of
+IBM and MCI that built and manages a key part of the network.
+   The IBM-MCI venture, known as Advanced Network and Services, manages a
+network called NSFnet, which connects hundreds of research centers and
+universities. NSFnet also manages links to dozens of other countries. All
+these networks are collectively known as Internet.
+   Some private competitors say Advanced Network and Services uses its
+favored position to squeeze them out of the data-transmission market by
+establishing rules that make it difficult to connect to NSFnet.
+   NSFnet was founded by the National Science Foundation, a federal agency,
+and is composed of leased telephone lines that link special computers
+called routers, which transmit packages of data to three million users in
+33 countries. Data traffic over the NSFnet backbone has doubled in the last
+year.
+   The government wants to develop a national data highway for electronic
+commerce, digital video transmissions to homes and vast electronic
+libraries that could be drawn on by the nation's schools.
+   Advanced Network and Services, based in Elmsford, N.Y., was set up last
+year as a non-profit corporation with $10 million from International
+Business Machines Corp. and MCI Communications Corp.  Earlier this year it
+set up a for-profit subsidiary, called ANS CO+RE, to sell computer network
+services.  That led some competitors to complain that Advanced Network and
+Services would be able to compete unfairly because of its arrangement with
+the government.
+   People involved in planning for a national data network say it is
+essential to provide for fair competition, which will lead rival companies
+to offer creative and entrepreneurial services in the hope of building
+market share. Without competiton, they say, the government will have
+created a monopoly that has little incentive to innovate.
+   "This is the first major communication business to be born under the
+deregulation era," said David Farber, a computer scientist at the
+University of Pennsylvania and a pioneer in data networking. "This hasn't
+happened since the growth of the telephone industry. You want it to be a
+business that doesn't repeat the errors of the past."
+   In recent years, the National Science Foundation has tried to shift its
+operations and ownership of NSFnet to Advanced Network and Services. And it
+will try to establish competition through contracts for networks to compete
+with NSFnet next year.
+   But there is no level playing field, complained William L.  Schrader,
+president of Performance Systems International Inc., a Reston, Va., company
+that provides commercial data connections to Internet.
+   He made public two letters between officials of Advanced Network and
+Services and the National Science Foundation that he said gave the company
+unfair control over access to the network. The result, he added, was that
+the government turned over valuable public property to a private company.
+   "It's like taking a federal park and giving it to Kmart," Schrader said.
+"It's not right, and it isn't going to stand. As a taxpayer, I think it's
+disgusting."
+   Performance Systems and several other companies have set up an
+alternative to NSFnet, known as a CIX.
+   Schrader said his company and the venture of IBM and MCI were competing
+for the same customers but unlike his rival he lacked a federal subsidy. He
+said he might ask the Internal Revenue Service to look at the business
+relationship between Advanced Network's non-profit and for-profit
+operations.
+   Allan Weis, the president of Advanced Network, disputed that his company
+had an unfair advantage. "It's a very competitive environment right now,"
+he said. "We have lost quite a few bids to PSI and to other competitors as
+well."
+   At the National Science Foundation, Stephen Wolff, director of its
+networking division, said IBM and MCI had overbuilt the network and were
+selling commercial service based on the excess capacity that was available.
+   A number of organizations are working informally to settle the dispute.
+   "I think it's a mess," said Mitchell D. Kapor, the founder of Lotus
+Development Corp. and now head of the Electronic Frontier Foundation, a
+public-interest group focusing on public policy issues surrounding data
+networks. "Nobody should have an unfair advantage. This is important
+because we're talking about something that is in its infancy but that one
+day could be on the order of the personal computer industry."
+-------
+
+
+
+
--- a/textfiles.com/computers/1pt4mb.inf
+++ b/textfiles.com/computers/1pt4mb.inf
@@ -0,0 +1,98 @@
+------------------------------------------------------------------------------
+This file was downloaded from ALIENS BBS ISRAEL, the BEST BBS in ISRAEL!
+Call now!  052-506539  24H  250Mb on-line!
+------------------------------------------------------------------------------
+
+
+NOTES ON THE USE OF 1.4 MB DRIVES IN AT-COMPATIBLES:
+
+I wasn't long after 1.4 Mb drives became available on the
+aftermarket that users discovered there are significant problems
+is applying then to AT's. Many of Second Nature's users have
+asked for help or advice, as SecNat has a feature to help in 3.5"
+disk installation on older AT's with no BIOS 3.5" support.  All
+sorts of strange stories are filtering back from the people who
+sell such drives, some of it contradictory, so I felt it was time
+to get all the facts in one place.
+
+The use of 720k 3.5" drives is non-controversial, and the drive
+manufacturers' instructions are generally adequate.  1.4 Mb
+drives, however, _will_not_ and _cannot_ work "out of the box",
+due to a _basic_hardware_incompatibility_:
+
+a) The Western Digital AT-type controllers (1002 & 1003 WA2)
+_hard-wire_ the state of the /Reduced Write Current output on Pin
+2  to the _data_rate_in_use_: Low for 300 kHz, High for
+_all_others_.  1.4 Mb drives use the 500 kHz data rate for 1.4 Mb
+disks, and the 250 kHz data rate for 720k media.  THUS /RWC IS
+ALWAYS HIGH!
+
+b) The 1.4 Mb drive requires that /RWC be LOW for 720k media, and
+HIGH for 1.4 Mb media.  Think of it being much like tape bias on
+a cassette deck -- if it's not matched properly to the media,
+full fidelity recording is _impossible_.
+
+Note that both of the above factors are _built_into_ the
+hardware, and CANNOT be changed by the BIOS, or software drivers!
+Thus 1.4 Mb drives, when simply plunked in an hooked up, CANNOT
+properly record on 720k media, and will normally TRASH as disk,
+if a write is attempted!  Two solutions are known to work:
+
+1)  A switch on the drive allowing /RWC for the 1.4 Mb drive to
+be independent of input Pin 2's state.  This may be done by
+installing a small toggle switch in the extra front panel space
+of the 3.5" to 5" adapter used for AT-mounted 1.4 Mb drives.  The
+connection to pin 2 of the cable should be broken (on the drive
+side of the connector), and the switch wired so that in the
+"720k" position the circuitry previously connected to Pin 2 is
+closed to Logic Ground.  The switch is then open in the other
+"1.4 Mb" position, and produces Low and High levels to /RWC,
+respectively.  If 1.4 Mb BIOS support is available (if it's an
+option in your SETUP program), operation will be exactly like a
+PS/2 1.4 Mb drive, EXCEPT you must set the switch appropriately
+to the MEDIA IN USE.  If you do not have BIOS support, you may
+use DRIVER.SYS to define the drive, with an entry like:
+
+     PCDOS 3.3:          DEVICE=DRIVER.SYS /D:1 /F:7 /S:18 /C
+
+     AST MS-DOS 3.2:     DEVICE=DRIVER.SYS /D:1 /F:4 /S:18 /C
+                                                   ^
+                         (See your DOS Manual for the
+                          correct /F: number for 1.4 Mb)
+
+Command syntax for formatting will be as described in your DOS
+Manual.  REMEMBER TO USE THE DRIVE LETTER ASSIGNED BY DRIVER.SYS
+WHEN FORMATTING, if you do not have BIOS support!
+
+2)  The drive can be internally modified to control the state of
+/RWC from the sensor for the extra hole in the body of a 1.4 Mb
+diskette.  Surprisingly I know of no commercial drive that does
+this, but I verified it's practicality by today actually
+modifying an Astro brand Internal Drive Kit, supplied as type 1),
+above.  Regrettably, modifying the Mitsubishi drive in the Astro
+required milling of the casting, and modification of numerous
+internal parts, but with some 4 hours work it was done, and does
+indeed perform automatically as desired.  I suspect that the
+absence of Media Type Sensors in most 1.4 Mb drives is due to the
+proximity of the required sensor location to the Eject Button
+mechanism, usually carried over from the manufacturers' earlier
+720k drive.  With this type of media-sensing drive operation is
+exactly as in a PS/2, in that the only operator decision to be
+made is matching the Formatting commands to the actual type of
+media in use.  There is an added advantage in that you can't
+"wipe out" the media, by writing to, or formatting, a 720k
+diskette with /RWC High -- a mistake that usually requires a
+powerful bulk eraser to repair, and causes the loss of any data
+already on the disk.  Anyone wishing to supply a drive of this
+type may contact me for full particulars of the Media Sensor to
+/RWC interconnection.
+
+I'll note in closing that the Astro unit (advertised in
+InfoWorld) is supplied with software said to work with any DOS
+2.0 and above, at $295, however if you have BIOS support you may
+use PCDOS 3.3 (or AST MS-DOS 3.2), instead of the supplied
+software.  They will not unbundle the drive/software package.
+
+
+Clyde Washburn
+70305,1211
--- a/textfiles.com/computers/2310-12
+++ b/textfiles.com/computers/2310-12
@@ -0,0 +1,56 @@
+
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͻ
+    <20>  Adaptec, Incorporated                              ACB-2310,12       <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>͹
+    <20>       J6       J9       J10     J3 J4 J5 J1(2312)                     <20>
+    <20>    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ           <20>
+    <20>    <20> <20><><EFBFBD><EFBFBD>     :::::1            1: 1: 1: 1:               <20><><EFBFBD><EFBFBD><EFBFBD>       <20>
+    <20>    <20>                            :: :: :: ::               <20><>          <20>
+    <20>    <20>                    123     :: :: :: ::               <20><>          <20>
+    <20>    <20>                    :::           :: ::               <20><>          <20>
+    <20>    <20>                    456           :: ::               <20><>          <20>
+    <20>    <20>                                                      <20><>          <20>
+    <20>    <20>                                                      <20><>          <20>
+    <20>    <20>                                                      <20><>          <20>
+    <20>    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ       ڿ            <20><><EFBFBD>ٺ          <20>
+    <20>                                  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>   <20>          <20>
+    <20>  INTERFACE:  ISA(AT)->ST412(MFM)                                      <20>
+    <20>  CONTROLS:   2 Floppy Drives (2312 only) (360KB, 720KB, 1.2MB, 144MB) <20>
+    <20>              2 Hard Drives                                            <20>
+    <20>                                                                       <20>
+    <20>  J9: Option Jumpers:  1: Disable I/O Waite State      <20>               <20>
+    <20>                       2: Track-1 ReCal., Step=35us.   <20>Default        <20>
+    <20>                       3: (Not Used)                   <20>Setting is     <20>
+    <20>                       4: Serial Monitor Mode          <20>NO JUMPERS     <20>
+    <20>                       5: Diagnostics Enable           <20>installed.     <20>
+    <20>                       6: (Reserved)                   <20>               <20>
+    <20>                                                                       <20>
+    <20>  J10: I/O Addresses:  Hard Drive: *Primary Address (1F0H): OFF        <20>
+    <20>                                    Secondary Address (170H): 4-5      <20>
+    <20>                                                                       <20>
+    <20>                       Floppy Drive: *Primary Address (3F0H): OFF      <20>
+    <20>                                      Secondary Address (370H): 1-2    <20>
+    <20>                                                                       <20>
+    <20>  J1: Floppy Drive (2312 only)          (* Default setting)            <20>
+    <20>  J5: HD Control                                                       <20>
+    <20>  J4: HD0 Data                                                         <20>
+    <20>  J3: HD1 Data                                                         <20>
+    <20>  J6: HD LED                                                           <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ ADDITIONAL INFO <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ķ
+    <20>                                                                       <20>
+    <20>  According to the Manufacturer, the ACB-2310/12 is 100% software and  <20>
+    <20>  hardware compatible with the WD1003-WA2, but you are advised to do   <20>
+    <20>  a Low Level Format to take advantage of the improved 1:1 Interleave  <20>
+    <20>  that this controller offers.  Note that there is no on-board BIOS,   <20>
+    <20>  so no DOS Debug LLF option is available.  Third party Formatting     <20>
+    <20>  software is required, ie; Disk Manager(tm) or SpeedStor(tm).         <20>
+    <20>                                                                       <20>
+    <20>                                                                       <20>
+    <20>                                                                       <20>
+    <20>                                                                       <20>
+    <20>                                                                       <20>
+    <20>                                                                       <20>
+    <20>                                                                       <20>
+    <20>                                                                       <20>
+    <20>                                                                       <20>
+    <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͼ
--- a/textfiles.com/computers/2496
+++ b/textfiles.com/computers/2496
@@ -0,0 +1,127 @@
+*************************************************************************
+How to upgrade your 24oo modem into a 96oo baud.  (US Robotics compatible
+of course)
+                                Written By
+                   Death Bringer (CPT/Info-Net/IRA)
+
+                                06/7/91
+
+
+Be sure to turn off your modem before you begin.
+
+First of all, you need to go to your nearby electronics store, don't try
+to go to Radio Shack, their parts have their own model numbers and you'll
+have a hell of a time getting the parts you need.  This upgrading of your
+modem will not work on old hayes modems, but they will work on any clone
+maker of modems (everex, practical peripherals, anchor, ati, intel, etc.)
+It will only work with modems with the Intel Chipset.
+
+This technique widens the band width by using a different chip that is
+similiar to the chip already in your modem.
+
+Parts Needed:
+16550 UART
+L4313545  IC
+SC11020CN IC
+L8730183  IC
+
+First of all, check to see if your biggest chips are soldered or socketed.
+if they are soldered, you'll have to de-solder the chips before you begin.
+After you get that done, replace the 8250 UART with the 16550 UART. (16550
+UARTs are required for 9600+ speeds).  The other 1 or 2 chip(s) need(s)
+to replaced with INTEL L4313545 instead of the chip that is already there.
+If your modem has another socket or more, than you are in luck, you can
+purchase a chip from US Robotics, and make your modem faster than 9600.
+If you don't have the socket, than you can only go 9600.  I'll get the
+chip number to you in the next edition and explain how and where to
+install it.  I am working on a way for the people (like me) that do not have
+the extra socket in their modem to speed up the rates.  I am working on a way
+to piggy back the chip.  I'll get back to you.  There should be a 22 pin
+chip on your modem also with a model number of SC11005CN or some where close
+to it.  Replace it with the SC11020CN.  Also, replace the L8630173 with the
+L8730183 chip.  If you have any suggestions or questions, you can locate me 
+through Compuserve USER ID 74702,97524
+
+*****OPTIONAL, LAP-M Error correction*****
+
+Adding error correction is rather simple.  For this these parts are
+necessary:
+
+Potentiometer. This is a 5k audio taper variable resistor.
+
+Capacitor. Any non-polarized 1.0 to 1.5 uf cap should do.
+
+100 ohm resistor - quarter or half watt.
+
+Wire
+
+Solder, soldering iron, etc.
+
+Solder one end of the capacitor to PIN 1 of the phone line input jack
+|-------------------|
+|                   \ line in         ::
+|                   \ phone in        ::
+|-----------|||||||||            pin 1^
+
+
+
+If your modem is external, the diagram looks like this.
+ 
+
+|------------------|
+|                 /|
+|                 ||RS-232 port
+|                 \|                  ::
+|                |-|line in           ::
+|                |-|             pin 1^
+|                |-|phone in
+|                |-|
+|------------------|
+This should be on the back of the modem.
+Pin one should the farthest on the bottom left.
+
+Solder the other end of the capacitor to the center lug of the potentiometer
+(there are three lugs on this critter). Solder one end of the resistor to the
+PIN 4 of the line input jack. Solder the other end of the resistor
+to either one of the remaining outside lugs of the potentiometer. Doesn't
+matter which one.
+
+-------------------------------------------------------------------------
+
+ADDITION TO ORIGNAL FILE - 6/15/91 
+Bill McCauley & Dark Spyre/Dr. Brains/Ryan Schwartz/Lamer/Loser
+
+First, a personal recomendation. _THIS WORKS!!!_  I have been plagued with
+2400 baud for some time. I hate waiting for the transfer to finish so that
+i can use the phone.  Threw the gismo together in about 10 or 15 minutes,
+took another five to adjust the pot for best results on my worst
+conection, and guess what? No more slow connections!
+
+-------------------------------------------------------------------------
+
+Have Fun!
+
+I am working on cheap ways to install V.32/V.42bis on your modified modem
+
+
+*************************Updated, 6/16/91********************************
+
+Installing V.42bis:
+
+1) You will need to purchase a 27C512 ROM chip.
+2) You will need to purchase a Sony CXK58257P-12L (or equivalent) Ram chip.
+3) Install the Rom in the Supervisor (SUP) socket.
+4) Install the Ram in the Ram socket.
+5) Make up two 3 pin jumpers for P9 and P10 with pins 1 and 2 jumpered
+on one and pins 2 and 3 jumpered on the other.  Connect the vacant pin 1
+on the one to the vacant pin 3 on the other with a jumper wire.
+6) Remove the jumpers on P9 and P10.
+7) Install the jumper with pins 1 and 2 connected together on P9.
+8) Connect the jumper with pins 2 and 3 connected together on P10.
+
+
+DeathBringer '91
+
+
+
+
--- a/textfiles.com/computers/24to96x.txt
+++ b/textfiles.com/computers/24to96x.txt
@@ -0,0 +1,140 @@
+Regarding the file "24to96.zip", which "explains" how to increase the speed
+of a 2400 baud modem to 9600:
+
+THIS FILE IS EITHER A HOAX OR ABSOLUTELY THE WORST TECHNICAL DOCUMENT EVER
+WRITTEN.    DON'T TRY IT!!!!!!
+
+In my opinion, it originated as a hoax, but since I know of two cases where
+it has resulted in the destruction of perfectly good 2400 bps modems, I
+thought I would write up this "rebuttal", and encourage all to ignore the
+24to96 file, as well as remove it from the BBS's it has shown up on.
+
+The problem with this type of "joke" is, unless the reader is fairly
+technical and knows something about chips and especially about modems, it
+almost sounds as though it would work!  That has been true in the two cases
+I know of.  The instructions sounded plausible to a couple of newcomers to
+electronics, and caused them to open up their modems, and when they found a
+slight match between their modems construction and the 24to96 instructions,
+they jumped in and hacked away.  The fact that these files were retrieved
+from BBS's with solid reputations for policing the quality and authenticity
+of the files gave the experimenter's confidence they would not have felt had
+they retrieved the data from the National Enquirer! In addition, overly
+enthusiastic uploaders have added testimonials to the explanation of the file
+(maybe to enhance the joke?) such as "I've tried this and it really works!". 
+If they have, they should contact me, and we will start up another company to
+build 9600 modems this new and revolutionary way which will surely blow all
+competitors away, since the chips listed are 1/6th the cost of the next
+cheapest 9600 bps chip set.
+
+Lest you wonder why I think I know so much about this, my credentials: 
+
+degree: BS Electronics Engineering/Mathematics, AAA ranked University
+20+ years engineering experience
+7 years modem design experience
+have designed 40+ modems using the chips in the 24to96 file
+founder of three modem companies now in business
+
+[haven't bragged that much in 20 years!]
+
+Specific problems in "24to96" (other than horrible english and grammar):
+
+(1) The INTEL part numbers called out are not INTEL part numbers.  They are
+probably manufacturer's part numbers for a particular Hayes clone modem, but,
+they could just as easily be spare tires for a volvo motorcycle!
+
+(2) The SC11005 chip called out in the instructions is also not an INTEL
+number; it is a SIERRA number.  Specifically, it is a SIERRA V.22 bis modem
+filter (don't recall all the exact specs).
+
+(3) They instruct you to remove the SIERRA SC11005 chip and replace it with
+an SC11020.  In the first place, the SC11020 is essentially a custom
+microprocessor (not a filter of any sort), in the second place, the SC11020
+has about twice as many pins as the SC11005!  Not to mention it uses
+different power supply connections and voltages and may possible blow up if
+you could get it rigged in just right.  An experienced technician would
+notice that right off, but again, some have just enough experience to feel
+they can do this, but do not realize what is going on until they have already
+hacked the SC11005 (or some other part) out of the modem (if they even FOUND
+one in the first place!).
+
+(4) To the best of my knowledge, there is no way to upgrade a V.22bis modem
+to any kind of 9600 bps modem no matter what you do.  It is not a matter of
+"bandwidth".
+
+(5) I tried unsuccessfully for 4 years to buy chips from US Robotics.  Why
+would they sell cheap upgrades instead of expensive HST modems?
+
+(6) "Optional Lap-M error correction".  
+    This is the only part of the instructions that won't hurt your modem,
+though it is definitely NOT V.42 anything.  You may recognize this as the
+"noise filter" circuit explained in a number of BBS files over the past
+couple of years.
+    Since Lap-M error correction is a SOFTWARE function, it goes without
+saying that you cannot add Lap-M error correction to a modem simply by adding
+a series RC network between tip and ring on the phone jack!
+    To add Lap-M error correction requires the addition of software requiring
+thousands of man hours to write and debug, and a microprocessor capable of
+executing the software in real time.  At 9600 bps this is no small
+requirement!
+
+(7) A 9600 bps modem requires support circuitry at least 10 times better
+(higher quality, lower distortion, better echo-canceling, etc.) than 2400 bps
+modems.  Dropping a 9600 bps modem chip set into a 2400 design would barely
+function and would probably fail miserably in actual use, provided of course
+such a thing were even possible.
+           **************************************************
+Now, if you had already figured out this file was a joke, Congratulations! 
+You are officially designated a technical sophisticrat! But, remember, most
+modem users are not technical and will not be able to see through this as
+easily as you did.  If two people who knew me and could call for help have
+ruined modems over this irresponsible document, how many others did also, and
+could not call for help?  (BTW, another guy mentioned to me he was going to
+try it and I talked him out of it--that makes three I know of).  This is a
+reckless joke, and I consider it a "HARDWARE VIRUS" document; those who
+originate and promote such things are no better than those who write and
+spread viruses.
+
+If you had not seen through this document, I am glad you took the time to
+download and read this.  Please, NO MATTER HOW MUCH SENSE THIS ALL MAKES TO
+YOU, DO NOT TRY TO DISASSEMBLE AND UPGRADE YOUR MODEM USING THESE
+INSTRUCTIONS!  In fact, even if you  managed to add V.42bis to your modem
+somehow, unless you purchase a license from IBM, UniSys and British Telecom
+to use it, IT WOULD BE PIRATED SOFTWARE AND YOU WOULD BE A SOFTWARE PIRATE. 
+V.42/bis is owned and licensed by IBM, UniSys and British Telecom; their
+license fees are substantial and are included in the cost of a V.42/bis
+capable modem.
+
+If you still want to try it, at least find a friend or solicit the help of a
+student or ???  They won't be able to do the upgrade either, but maybe THEY
+can convince you this is baloney!
+
+
+I don't usually "go public" this directly.  When I first read this file I
+thought it was intended to be serious.  When I read it again I knew it was
+obviously a joke.  When people started taking it seriously and suffering from
+it I became angry.  I ought to actually publish instructions for upgrading
+from 2400 bps to 9600 bps.  I think it would parallel the recipe I once
+learned for cooking common lake Carp (a "trash" fish in the U.S.):
+
+           Clean the Carp
+           Lay it out flat on a redwood shingle
+           Generously season with salt, pepper and dill
+           Place in a 400 degree oven and cook for 3 hours
+
+           To eat, throw away the carp and eat the shingle!
+
+The modem instructions would be:
+
+           Remove all interior components from your 2400 bps modem
+           Retain the case, power switch and lights
+           Put the 9600 bps sub-section you purchased into the case
+           Screw it down and connect up the switch and the lights
+           Throw out the 2400 bps modem
+
+Well, that's about it.  I've done my bit for the modem world, saved it from
+a terrible fate, right?
+
+Well, maybe not...............
+
+Larry Holmes
+
--- a/textfiles.com/computers/25mgupgd.txt
+++ b/textfiles.com/computers/25mgupgd.txt
@@ -0,0 +1,341 @@
+
+
+
+
+
+
+
+           A 2.5 Meg Socketed Ram Upgrade for the 1040ST 
+
+
+
+      
+     A Shareware File by Barry Orlando     Dated: Dec. 28, 1988 
+      
+       
+      
+     Introduction 
+      
+      
+      
+     This shareware text file provides a procedure which details a 2.5
+     megabyte on board RAM upgrade project. The method described replaces 16
+     256K dynamic RAM chips with 16 one megabit dynamic RAM chips installed
+     in chip sockets. Reinstallation of the ST's metal shield cover is also
+     not impaired.  
+
+     The beauty of this modification is that pin compatibility is simplified
+     by the use of sockets instead of directly soldering the 1 meg RAM chips
+     (DRAMs) to the motherboard and by the fact that the removed bank of
+     sixteen perfectly reusable 256K DRAMs can be resold by you to persons
+     upgrading 520STfm computers to 1 megabyte. 
+      
+     If you use this upgrade method, I recommend that you also use the same
+     high quality low contact resistance sockets that I used and have listed
+     below, than to use any other standard sockets. These are the type and
+     quality which are used on expansion boards made for the IBM clones.
+
+     I originally wrote this procedure to aid me in upgrading my own
+     1040ST's memory to 2.5 megabytes because I didn't trust myself not
+     making mistakes and possibly damaging any of the electronic components,
+     especially the new DRAMs which I didn't consider cheap. I might note
+     that my 1040ST's pc-board was marked Rev 4, but I don't believe that
+     any other recent board revisions (if they exist) for boards with 32
+     256K DRAMs installed should affect this procedure.  
+
+      
+     Disclaimer of Liability 
+      
+      
+     I make no claim that this modification will work for you. I can 
+     only say that it worked for me. This modification should not be 
+     attempted by anyone except by someone with experience repairing or
+     building digital electronic circuits. Performing this modification will
+     be done at your own risk and may void the warranty on your computer.
+
+
+
+
+
+                                                  1
+
+
+     Background 
+      
+      
+     The 256K dynamic ram chip differs from the 1 meg dynamic ram chip by
+     having one additional connection, namely the address input A9. The
+     following chip diagram illustrates this and shows pin layouts: 
+      
+      
+
+      
+                   256K                         1meg 
+             ------\__/------             ------\__/----- 
+           A8|1.          16|VSS       Din|1.       **18|VSS 
+          Din|2          *15|CAS        WE|2          17|Dout 
+           WE|3           14|Dout      RAS|3         *16|CAS 
+          RAS|4          *13|A6         NC|4          15|A9 
+           A0|5*         *12|A3         A0|5         *14|A8 
+           A2|6*         *11|A4         A1|6*        *13|A7 
+           A1|7*         *10|A5         A2|7*        *12|A6 
+          VDD|8*         * 9|A7         A3|8*        *11|A5 
+             ----------------          VCC|9*        *10|A4 
+                                          --------------- 
+      
+      
+                   Truth Table for above chips: 
+                   ____________________________ 
+                   A0-A9    Address Inputs 
+                   CAS      Column Address 
+                   Din      Data In 
+                   Dout     Data Out 
+                   RAS      Row-Address Strobe 
+                   VDD      Power (+5V) 
+                   VSS      Ground 
+                   WE       Read/Write Input 
+                   NC       Not Connected 
+                   *        pc-board pin compatible 
+                   **       pc-board pin compatible on most chips 
+      
+      
+     The 2.5 megabyte modification essentially reconnects all pins as 
+     previously connected on the lower of two banks of RAM chips plus adds a
+     new line from the previously unused A9 pin on the ST's MMU (pin 64 of
+     U15) to all new 1 meg chip pins A9 via a new 33 ohm resistor. Some of
+     the Address leads are interchanged, but this has no effect on the
+     operation of the computer. 
+      
+      
+     Major Tools 
+      
+      
+          1. Desoldering iron (I recommend the spring loaded type that
+          incorporates the head source.) 
+
+                                                  2
+
+
+          2. 15W grounded soldering iron (Radio Shack 64-2051 or similar) 
+          3. Wire wrap clip and stripping tool 
+          4. Exacto knife 
+          5. 3-5 power magnifying glass or jewelers eyepiece 
+      
+      
+
+     Parts Required 
+      
+      
+          1. One 33 ohm resistor, 1/4 watt, 5%. 
+          2. 5 feet length of 30 gauge wire, Kynar wire wrap solid
+          conductor (Radio Shack 278-502). 
+          3. 16 double contact low profile dual-in-line I.C. sockets (D.C.
+          Electronics catalog no. T02-18, cost: $0.12 each) 
+          4. Pack of 10 "Socket Wrap ID" (D.C. Electronics catalog no.
+          16-ID, cost: $2.05) You can get in touch with D.C. Electronics at
+          the following location: 
+      
+                    D.C. Electronics 
+                    P.O. Box 3203 
+                    Scottsdale, AZ  85257 
+                    (800) 423-0070 
+      
+          5. 16 one megabit dynamic RAM chips, 120ns (I used Hitachi Part
+          no. HM511000-12, and paid $24.00 each plus state tax and $4.00
+          shipping from Ed at Computronix on Dec 16, 1988). You can get in
+          touch with Ed at the following location: 
+      
+                    Computronix 
+                    2151 A O'Toole Ave. 
+                    San Jose, CA 95131 
+                    (408) 943-0771 
+      
+      
+     Work Area 
+      
+      
+     Prepare your work area by placing a towel on your flat working 
+     surface and cover it with a layer of aluminum wrapping foil. This
+     provides padding for the components and a conductor for static 
+     electricity. 
+      
+      
+     Precautions 
+      
+      
+     Since the slightest static discharge could easily damage 
+     components on your computers pc-board, always keep one hand on the
+     metal foil bonded along the outer rim of the pc-board before and during
+     touching any part of the pc-board or its components. Avoid working on
+     this project when the humidity is low. 
+
+                                                  3
+
+
+     Procedure 
+      
+       
+     1. After removing the pc-board from the insides of your computer,
+     desolder and remove the front 16 256K chips (U33 through U45 and U16
+     through U30). 
+      
+     2. Using the Exacto knife, cut the following traces on the top side of
+     the pc-board: 
+      
+          a. Between U30's pin 1 and U61's pin 1. 
+          b. Between pin 14's of U33 through U45 and U16 through U30 and
+          other pin 14's of U46 through U61.
+          c. Between the thru-hole (nearest to pin 1 in center of U32) of
+          U32 and U46's pin 1. (Note: This thru-hole traces to U32's pin 1
+          on the underside of the board.) 
+      
+     3. Using the Exacto knife, cut the following traces on the bottom side
+     of the pc-board: 
+      
+          a. Between U30's pin 1 and the 32 ohm resistor R76. 
+          b. Between U32's pins 2 and 14. Do the same for U33 through U45
+          and U16 through U30.
+          c. Between U30's pin 4 and U15's pin 8. (Note: Cut the trace after
+          it goes through the board to the bottom side near resistor R91,
+          but before it reappears on the top of the board via another
+          thru-hole. 
+          d. Between U32's pin 14 and the thru-hole located between U32 and
+          U33. 
+      
+     4. Preparing New Sockets and Soldering Them Inplace 
+      
+          a. On all 16 new sockets, remove the internals of pin 4. 
+          b. On all 16 new sockets, bend all pins 1 and 17 flat against
+          their bottom then up against their outer side. 
+          c. On 14 of the new sockets, bend pin 18's flat against their
+          bottom and pointing straight out to the side. 
+          d. On the remaining two, bend both pin 18's flat against their
+          bottom but back and down so it will just reach and fit into the
+          pc-board hole of it's adjacent pin (pin 17). These two sockets
+          will be installed and soldered with the socket's pin 18 going into
+          the old 256K chip's pin 16 hole below the new socket's pin 17.
+          Trial fit these two sockets at this time.
+          e. Using a pair of scissors, cut pieces of "Socket Wrap-ID"
+          plastic markers for sandwiching them between the new sockets and
+          the pc-board during installation. These little plastic markers
+          should be cut so as to electrically isolate the socket's pins 1
+          and 17 from leads and traces on the pc-board, and from pin 18 of
+          the socket for the two separately prepared sockets above, but also
+          so as not to interfere with seating the socket's four pads flush
+          with the top of the pc-board upon installation. 
+          f. Solder the two sockets with the bent back pin 18 and markers
+
+                                                  4
+
+
+          into U30 and U33. 
+          g. Solder the remaining sockets with markers into U34 through U45
+          and U16 through U29. Pin 18 of these socket's must be soldered to
+          the top of the board at the nearest thru-hole that the pin 18 just
+          barely reaches. Use plenty of heat as these thru-holes are big
+          heat sinks. 
+      
+     5. Mounting The New 33 Ohm Resistor 
+      
+          a. Install a new 33 ohm resistor on the pc-board by drilling two
+          small holes from the top at points near capacitor C55 and resistor
+          R70. Make sure you don't drill through a trace on the other side
+          by holding the pc-board up to a bright light and marking the spots
+          with a pencil. 
+      
+     6. Wiring 
+      
+          Wire the following connections on the top side of the board: 
+      
+          a. Between U32's new socket's pins 1 and 17 and a thru-hole on the
+          pc-board between U32 and U33. This thru hole is the only one that
+          has a trace that run to another thru-hole between U46 and U47 on
+          the top side of the board. 
+          b. Between U16's new socket's pins 1 and 17, and pin 2 of U54.
+          Solder the wire directly to the side of the chips pin 2. 
+          c. Between each of the remaining new socket's pin 1 and 17 and a
+          thru-hole in back of each 256K RAM chip (i.e., U47 through U53 and
+          U55 through U61). These thru-holes are the ones that you will find
+          traces back to either pin 2 or pin 14 of U47 through U61 and then
+          trace over toward U22, U23, U26, and U27. Actually, pins 2 and 14
+          are tied together on the bottom of the board for every 256K RAM
+          chip still installed. So that's 14 more wires altogether (i.e.,
+          each new RAM chip's pins 1 and 17 will be connected to the pins 2
+          and 14 of the 256K chip directly in back of it.  
+      
+          Wire the following connections on the bottom side of the board
+          (Note: all pin numbers here refer to the pin numbers on the
+          pc-board, not the pin numbers of the new sockets or new ram
+          chips): 
+      
+          d. Between U15's pin 64 and one side of the new 33 ohm resistor. 
+          e. Between all pin 14's of U32 through U45 and U16 through U30,
+          and the other side of the new 33 ohm resistor. 
+          f. Between all pin 2's of U32 through U45 and U16 through U30, and
+          the thru-hole near R91 which had its trace cut to U30's pin 4.
+          This thru-hole traces back on top of the pc-board under the bank
+          of resistors and over to U15.  
+          g. Between U61's pin 1, U30's pin 4, and the cut trace side of
+          resistor R76. 
+          h. Between U30's pin 1 and U61's pin 3. 
+      
+     8. Inspect all solder joints with the magnifier for solder shorts and
+
+                                                  5
+
+
+     faulty connections. Verify that all connections were made correct. 
+       
+     9. Install the new 1 meg RAM chips into their new sockets. 
+      
+     10.That's it! Clean isn't it? Now sit back and admire your work. 
+      
+     12.Reassemble the computer and reconnect the monitor and power cord and
+     let it whirl! 
+
+      
+     Shareware Policy 
+      
+      
+     I am distributing this documentation as a $15.00 Shareware File. 
+     Please feel free to re-post on your favorite Information Service or
+     local BBS. I ask only that you do so in its original unaltered form. 
+      
+     If you have followed these instructions and everything worked for you,
+     I'm sure you will appreciate the effort I put into documenting this
+     project and the money it has saved you from buying one of those
+     expansion boards on the market or by the time you could have spent
+     trying to figure such a project out by yourself. Please send your
+     shareware user registration fee to: 
+      
+      
+                    Barry Orlando 
+                    1120 Deerfield Dr. 
+                    Napa, Ca  94558
+
+
+     All registered users will be sent a free utility disk which includes a
+     program to test the new RAM as well as instructions on how to further
+     modify the computer to a full 4 megabytes.
+
+
+     Good Luck!
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+                                                  6
+
--- a/textfiles.com/computers/286
+++ b/textfiles.com/computers/286
@@ -0,0 +1,104 @@
+<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>
+<EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+<EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰۰<EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>
+<EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>
+<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>۰<EFBFBD><EFBFBD>
+<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+                                        <20><><EFBFBD>                                  <20><><EFBFBD>
+          Management Overview           <20><><EFBFBD>   Review of Compaq DeskPro 286   <20><><EFBFBD>
+                                        <20><><EFBFBD>                                  <20><><EFBFBD>
+The Compaq 286 is  the  latest  in  the <20><><EFBFBD>              by                  <20><><EFBFBD>
+evolutionary      cycle      of     the <20><><EFBFBD>                                  <20><><EFBFBD>
+microcomputer.  This current generation <20><><EFBFBD>Bob McDuffee, Sysop, Grizzly King <20><><EFBFBD>
+machine  utilizes   a   true   16   bit <20><><EFBFBD>                                  <20><><EFBFBD>
+processor  as  well  as  16/8  bit  bus <20><><EFBFBD>         Hardware Review          <20><><EFBFBD>
+interface.  This allows the INTEL 80286 <20><><EFBFBD>                                  <20><><EFBFBD>
+microprocessor chip to perform at least <20><><EFBFBD>                                  <20><><EFBFBD>
+twice as fast as the  IBM  XT  and  the <20><><EFBFBD>                                  <20><><EFBFBD>
+Compaq Deskpro series.  The test system <20><><EFBFBD>                                  <20><><EFBFBD>
+contained a 30 Megabyte hard drive,  10 <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+Megabyte  tape   backup   unit,   green <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+text/graphics display monitor,  640K of 
+RAM and a 1.2 Megabyte floppy  disk  drive.  Throughout  the  test  the  machine 
+performed  without  fail.  All  software  currently approved for purchase by the 
+DPIC ran without modification on the 286.  This demonstrates that the machine is 
+fully compatible  with  the  current  installed  base  of  microcomputers  while 
+offering  efficiency  enhancements  (clock speed of 8.00 MHZ compared to 7.2 MHZ 
+for the DeskPro) and,  expanded memory and secondary  storage  options.  Several 
+times  during  the test the high density disk drive was used to format and write 
+the standard 360K diskettes to transfer data  to  an  older  PC,  and  performed 
+flawlessly!  
+  
+                                   Objectives
+ 
+Given the desire to off load the VM machine of `non-mainframe' systems  as  much 
+as possible, the need for a machine capable of handling large data files (PC-SAS 
+or  PC-FOCUS  for example) with reasonable speed and yet is compatible with even 
+the first IBM PC's is apparent.  
+  
+                                   Evaluation
+  
+Benchmark testing was performed to allow comparison between the Compaq Deskpro's 
+currently in use at StorageTek and the new generation of Compaq  286  Deskpro's.  
+================================================================================
+                       Data Base Sort and Index Benchmarks
+             Test 1                                     Test2
+Sort 3911 records on one indexed field.  Add five (5) indexes to a file contain- 
+                                         3911 records.
+ Compaq DeskPro          Compaq  286        Compaq DeskPro          Compaq 286
+30 min. 18  sec.       5 min.  23 sec.   2 hrs 9 min. 30 sec.    43 min. 59 sec.
+================================================================================
+               Spreadsheet Load, Recalculate, and View Benchmarks
+                 Test 1                                 Test 2
+Load  a 59136K file from the hard disk.        Recalculate a 59136K file
+                                     
+Compaq  DeskPro           Compaq  286     Compaq DeskPro          Compaq 286
+7 min.  45 sec.          1 min. 43 sec.   4 min. 45 sec.         0 min. 45 sec.
+  
+                                     Test 3 
+                                  View a graph.  
+  
+                     Compaq DeskPro            Compaq 286
+                     0 min. 20 sec.           0 min. 4 sec.  
+================================================================================
+                Word Processor Search and Block Move Benchmark 
+  
+                 Test 1                                 Test 2
+Search for a phrase  located  near the      Block Move in a 26 page document.
+end of a 26 page document.               
+  
+Compaq  DeskPro          Compaq 286      Compaq DeskPro           Compaq 286
+   6.48sec.               4.12 sec.         8.14 sec.              2.59 sec.
+================================================================================
+         File  Operation Benchmarks performed on a file of 578 records.  
+  
+                 Test 1                                 Test 2
+           Random Record Read                      Sequential Read
+   
+Compaq DeskPro           Compaq 286    Compaq DeskPro             Compaq 286
+  21.69  sec.            9.77  sec.       8.78 sec.               4.61  sec.
+  
+                                     Test 3 
+                               Random Record Write 
+
+                       Compaq DeskPro           Compaq 286
+                         12.74 sec.              7.19 sec.
+================================================================================
+
+                             Prime Number Generation
+  
+                       Compaq DeskPro           Compaq 286
+                           13 sec.                7 sec.
+================================================================================
+                                Integer Addition
+  
+                       Compaq DeskPro           Compaq 286
+                         .23 sec.               .07 sec.  
+================================================================================
+                            Floating Point Arithmetic
+  
+                       Compaq DeskPro           Compaq 286  
+                          .50 sec                .29 sec.  
+================================================================================
+               [ TO READ REST OF ARTICLE PRESS CTRL-RIGHT ARROW ]
--- a/textfiles.com/computers/286-2
+++ b/textfiles.com/computers/286-2
@@ -0,0 +1,111 @@
+         Part 2 of the Review of the Compaq DeskPro 286 by Bob McDuffee
+
+================================================================================
+                              String Concatenation
+  
+                       Compaq DeskPro           Compaq 286 
+                          .44 sec.               .26 sec.  
+================================================================================
+                                  Data Look-up 
+  
+                       Compaq DeskPro           Compaq 286 
+                          1.01 sec.              .36 sec 
+================================================================================
+                                   File Update
+  
+                       Compaq DeskPro           Compaq 286  
+                          .51 sec.               .23 sec.  
+================================================================================
+                       Norton Utilities Performance Rating 
+ 
+                     Compaq DeskPro    Compaq 286    IBM XT 
+                         1.7              6.7         1.0 
+================================================================================
+
+                           Overall Evaluation Summary
+  
+The  Compaq  DeskPro  286  is a fine example of today's technology.  The machine 
+performed flawlessly throughout the evaluation period while proving itself to be 
+a much faster,  more functional machine.  The machine was tested with all of the 
+current software packages now in use at StorageTek,  all performed faster on the 
+286.  The added speed of the 80286 microprocessor and the ability to address  up 
+to  7  MEG  of  RAM  is  essential  for  the  operation of today's larger,  more 
+sophisticated packages like PC-FOCUS and PC-SAS.  Price  comparisons  favor  the 
+Compaq only slightly over the IBM line.  However, the value ("Bang-For-The-Buck) 
+is biased absolutely to Compaq.  
+
+                                 Recommendation
+
+Compaq  has  once  again created an IBM compatible that goes beyond IBM in speed 
+and flexibility yet  remains  100%  compatible  with  the  entire  IBM  line  of 
+microprocessors.  This machine is applicable in any area which manipulates large 
+amounts  of  data ( ie a database) or large spreadsheets.  The increased storage 
+(from 10 MEG to 30 MEG) faster processing speed  and  overall  performance  make 
+this the best buy in a "Corporate" microcomputer today.  
+
+
+
+
+
+
+
+
+
+
+
+                               [ End of Article ]
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+                            [ No more down here!!! ]
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+                             [ Honest!! No more!! ]
+
+
+
+
+
+
+
+
+
+
+
+
+                    [ It's all up at the top of Scroll!! ]
+
+
--- a/textfiles.com/computers/28_8khst.txt
+++ b/textfiles.com/computers/28_8khst.txt
@@ -0,0 +1,143 @@
+
+
+           U.S. ROBOTICS ANNOUNCES THE LAST MODEM YOU'LL EVER BUY
+        Provides Migration Path to Forthcoming CCITT 28.8 Kbps Standard
+        ---------------------------------------------------------------
+
+     SKOKIE, Ill. -- June 8, 1992 -- U.S. Robotics today announced an upgrade
+program for the CCITT-proposed standard of 28.8 Kbps, previously referred to
+as V.FAST.  The Courier V.32bis, Courier HST Dual Standard and Shared Access
+Modem Sharing Kits are the products currently included in the program. Field
+upgrades will be available for $299 as soon as the CCITT 28.8 Kbps draft
+recommendation is completed. Official approval of the standard is not
+expected until January, 1994.
+     "The CCITT-proposed 28.8 Kbps standard won't be a reality for most
+manufacturers until 1994," said Jonathan Zakin, U.S. Robotics executive vice
+president, sales and marketing.  "By offering modems ready for 28.8 Kbps now,
+we're providing insurance against technical obsolescence.  Customers can
+purchase a Courier high-speed modem or Shared Access Modem Sharing Kit now
+and take advantage of the most updated technology available. When the 28.8
+Kbps standard becomes available later, they'll already have a cost-effective
+upgrade option and won't have to re-invest in new equipment."
+     "Key to the 28.8 Kbps program is the fact that the upgrade to the
+Courier high-speed modems and Shared Access Modem Sharing Kits can be
+completed by the end user at their worksite, which reduces their `down' time
+and eliminates excess costs like shipping and handling," continued Zakin.
+"You may hear about other 28.8 Kbps modems that are available now, but until
+the standard is defined, no one knows what hardware will be needed to comply.
+Our unique modem architecture makes future `field' upgrades a realistic and
+simple procedure."
+     Because of U. S. Robotics' advanced modular modem architecture, the
+company's Courier V.32bis, Courier HST Dual Standard, and Shared Access modems
+are readily upgradable to 28.8Kbps. The modems are made up of a motherboard and
+a smaller daughterboard, which holds the modems' microprocessors and firmware.
+The current, high-speed daughterboard can easily be replaced with a new board
+containing the 28.8 Kbps CCITT standard.  U.S. Robotics is the only modem
+manufacturer to implement this kind of flexible design.
+     "In the CClTT, the previously called `V.FAST' standard has gained
+universal support at the 28.8Kbps speed," said Dale Walsh, U.S. Robotics vice
+president, advanced development and participant in the CCITT committee on the
+28.8 Kbps standard, "This is how our modular architecture works. The data
+pump (which executes the modulation and demodulation of the data), and the
+key controller functions (which perform the data compression, error control
+and the AT command set) are on one board, making upgrades simple. We can
+easily make the data pump faster and upgrade the controller functions to keep
+up with the new speed. It's all in just one small plug-in card."
+     Because compatibility with CCITT standards is crucial, U.S. Robotics'
+availability and implementation of the 28.8Kbps standard will depend on the
+CClTT's progress.  At this time, the standard is expected to define a connect
+speed of 28.8 Kbps, two times faster than V.32bis, the fastest CCITT
+standard now available.
+     U.S. Robotics is one of the first vendors to announce a program for
+28.8Kbps compatibility.  The company has a history of industry "firsts,"
+including the first CCITT V.32bis modem from a major manufacturer, the first
+self-managing modem management system and the first portable CCITT V.32
+modem.
+     U.S. Robotics will upgrade any Modem Sharing Kit to 28.8Kbps. Current
+Courier models, which have the smaller footprint and a higher, 57.6 Kbps DCE
+to DTE (modem-to-computer) interface speed, are also upgradable. The
+company's upgrade program does not include WorldPort and Sportster modems.
+     U. S. Robotics Courier modems offer a wide range of features, including
+fax, remote configuration, and synchronous capabilities. The Shared Access
+Modem Sharing Kits, which began shipping in March, 1992, allow for the
+pooling of modems on a LAN so that a LAN user can access them for dial-in or
+dial-out communications.
+     The following products will be upgradable to 28.8 Kbps:
+
+  Courier V.32 bis, internal and external          (57,600 bps versions only)
+  Courier HST Dual Standard, internal and external (57,600 bps versions only)
+  Courier V.32 bis FAX, internal and external
+  Courier HST Dual Standard FAX, internal and external
+  Shared Access Modem Sharing Kit Single Port and Dual Port
+
+                 THE CCITT 28.8 KBPS STANDARD: SOME BACKGROUND
+                 ---------------------------------------------
+
+     The standard for 28.8 Kbps dial-up communications being developed by the
+CCITT will stretch the limits of dial-up telephone lines.  But don't expect
+to be sending files at top speeds immediately.
+     Dale Walsh,  vice president for advanced development at U.S. Robotics,
+Inc., cautions that most users won't be able to achieve the maximum speeds
+permitted under the standard right away. When the standard is adopted, modems
+that conform should be able to transmit at 19.2 Kbps on lines where a modem
+conforming to V.32bis (the current high-speed standard) can now transmit at
+14.4 Kbs.  But Walsh,  a member of the CCITT committee developing the
+standard, says it is being formulated with the increasing digitization of 
+dial-up phone networks in mind.
+     The improved quality of phone lines, as much as any modem technology
+improvements, has made high speed dial-up communications possible" says
+Walsh. "We are designing the standard keeping in mind that phone networks
+will use more and more digital circuits and digital central office switches."
+     Consequently, speeds in the neighborhood of 28.8 Kbps will be the
+exception, rather than the rule--at least until the public switched
+telephone network becomes completely digital.
+     "I'd say when it's finished in a year or so, the standard will allow
+19.2 Kbps transmissions on 80 percent of all lines, 24 Kbps on 50 percent of
+all lines, and 28.8 Kbps communications on 20 percent of all lines," says
+Walsh, who also helped develop the CCITT V.32bis standard for 14.4 Kbps
+dial-up communications.  "As the phone networks improve, top speeds will be
+more easily achieved, so I think it's more realistic to think of it as a
+19.2 Kbps standard that is sometimes capable of higher speeds.
+     A common misconception is that the coming 28.8 Kbps standard will allow
+speeds of 115.2 Kbps, when combined with V.42bis data compression.  Walsh noted
+that such calculations are based on an assumption that V.42bis allows 4 to 1
+data compression.  Outside the lab, V.42bis allows compression ratios between
+2 to 1 and 3 to 1, meaning that under REAL LIFE conditions, the forthcoming
+standard will allow maximum throughput of about 86.4 Kbps.
+     "It's a mistake to use the 28.8 number and max everything out from that,"
+said Walsh.
+     Not that the 28.8 Kbps standard doesn't have its advantages.  After all,
+19.2 Kbps is an improvement over 14.4 Kbps.  And the forthcoming standard will
+adjust for line conditions, a critical factor in high-speed data
+communications--like no previous standard.  The standard under development
+will include a "probing" function that the modem can use to "sound out" the
+quality of the phone line.  That will allow the modem to optimize transmissions
+to take advantage of available bandwidth.
+     "We are still working on the training sequences," says Walsh.  "But before
+transmission starts, the standard will enable the modem to determine what band-
+width is available and how to best position the signal to match available band-
+width."
+     The standard achieves higher speeds through its ability to use more of a
+line's bandwidth, not just the center portion of the channel used under current
+standards.
+     "It will more closely match the modulation scheme to what's available," 
+says Walsh.  "That way, the modem can shape the transmissions to adapt 
+precisely to the channel, which is very important if you want to transmit at
+high speeds.
+     The most recent committee meeting was held last month.  Still to be 
+agreed upon are such critical issues as training sequences, coding schemes, and
+signaling rates.  Walsh said he expects the committee to reach final agreement
+in 1993, with official CCITT adoption likely in 1994.
+     While some have taken to calling the standard under development V.Last,
+Walsh isn't convinced this will be the final modem standard.  After all, he
+notes, no one thought dial-up phone lines would ever be this noise-free, and
+further advances in that area could make even higher speed dial-up
+communication possible.
+     "I'm certain we'll have at least a fax version of this standard as the
+quality of phone lines keep improving," he said.  "We're trying to be sure that
+this standard will serve users into the year 2000.  But modem standards are
+like wars: you always think it's going to be the last one."
+     U. S. ROBOTICS, INC, (NASDAQ:USRX) (800)DIAL-USR voice for more infor-
+mation.
+
+
--- a/textfiles.com/computers/2ndrs232.txt
+++ b/textfiles.com/computers/2ndrs232.txt
@@ -0,0 +1,204 @@
+Date: Wed, 15 Jul 87 22:36:06 MEZ
+From: Bernhard Nebel <NEBEL%DB0TUI11.BITNET@forsythe.stanford.edu>
+Subject: A 2nd RS232 port
+Comment: Extracted from digest info-atari16 87-283
+To: INFO-ATARI16@score.stanford.edu
+ 
+ 
+           HOW TO GET A SECOND RS232 PORT FOR YOUR ATARI
+ 
+It might happen to you that you need a second RS232 port for your
+ATARI ST.  Perhaps you have a printer with a serial port and a
+telephon modem, as I do.  The first idea might be to go to your dealer
+expecting that he has an extension card for a few bucks. He hasn't,
+and you get curious about whether the ATARI can be regarded as a real
+computer.  Anyway, you need a solution and don't want to trade your
+ATARI for one of those clones and are even more upset about the idea
+of exchanging the connectors any time you use another peripheral. This
+can be the point when you consider looking more seriously into the
+hardware detecting that there is this MIDI port you never spent any
+thought about. It is just there for those people who cannot play piano
+properly and compensate for this by buying a lot of electronic parts
+hoping that they can improve their music by it :-).  You may even have
+a different opinion about them. You know, however, for sure that *you*
+won't use this port. Therefore it seems to be a good idea to use it
+for your own purposes.
+ 
+The above describes precisely my thoughts leading to the modification
+of my ATARI described below. It's just an easy, quick and cheap
+hardware hack -- it doesn't meet the RS232 standards -- but it works!
+I used a RS232 receiver to receive *and* send the signals, because
+this was the chip I found somewhere in my old computer (a 6800 !!)
+where it served the same purpose. However, note that nowadays
+RS232 tranceivers are available which should be used instead.
+ 
+Note that the description below applies *only* to the ATARI 520 ST and
+things may be different for the 1040. Additionally, the description
+can be, of course, incorrect. Therefore you should verify that the
+modifications described below are correct by consulting the proper
+sources.  In any way, modifications according to the description below
+carried out by you are on your own risk.  In particular, you should be
+aware that the warranty for your computer will expire after opening
+it.
+ 
+ 
+1) A COMMUNICATION PORT
+ 
+The first thing you have to decide is what communication port you like to
+use. I chose the MIDI IN port for three reasons:
+ - I won't use MIDI after the modification.
+ - Connectors for this communication port are easily available and cheap.
+ - Three of the five pins aren't used.
+ 
+The drawback of this solution is that you might easily confuse the
+MIDI IN port with the MIDI OUT port when plugging in your connector
+which can result in blowing up your peripheral.
+ 
+I use the following pin assignment:
+ Pin 1 = RS232 OUT
+ Pin 2 = GND
+ Pin 3 = RS232 IN
+Note that pin 4 & 5 are already used.
+ 
+Pin layout of the communication port seen from inside:
+ 
+         1         3
+ 
+          4       5
+              2
+ 
+NOTE: In a lot of sources including my ATARI manual I found a different pin
+      layout which, however, seems to be wrong.
+ 
+SOLDERING: Pin 2 of MIDI IN has to be connected with pin 2 of MIDI OUT.
+NOTE: These pins are only accessible from the bottom side of the board.
+ 
+ 
+2) REWIRING THE MIDI ACIA
+ 
+The wiring of the MIDI ACIA has to be changed.  We have to rewire the
+Tx-Data and Rx-Data pins, because we want to use a different
+driver. Additionally, the Tx-Clk and Rx-Clk must be connected to a
+different clock, because a fixed baud rate of 7812.5 is probably not
+appropriate.  In the ATARI 520 ST the 6850 sitting next to the sound
+chip -- the YM 2149 -- is the right chip.
+ 
+CUTTING: Pin 2 (Rx Data), pin 3 (Rx Clk), pin 4 (Tx Clk) and pin 6 (Tx Data).
+ 
+ 
+3) A NEW BAUD RATE GENERATOR
+ 
+Timer A of the MFP 68091 is not used and can be employed as a baud
+rate generator for our ACIA. A tiny assembler program setting the
+correct baud rate is given below. I usually run this program at boot
+time from my AUTO folder. A more sophisticated solution could be to
+write an accessory to set the baud rate.
+ 
+SOLDERING: Connect pin 3 (Rx Clk) and pin 4 (Tx Clk) of the MIDI ACIA with
+           pin 13 (Timer A Out) of the MFP.
+ 
+ 
+4) A RS232 DRIVER
+ 
+As I said above, I used a RS232 receiver (SN 75189) for both
+transmitting and receiving. That means that the outgoing signal does
+*not* conform to the RS232 voltage level specification. However, this
+cheap kludge always worked.
+ 
+SOLDERING: - Mount a 75189 (RS232 receiver) on a small circuit board.
+           - Connect pin 14 (Vcc) of the 75189 with Vcc, e.g., with pin 14
+             of a 7404.
+           - Connect pin 7 (Gnd) of the 75189 with Gnd, e.g., with pin 7
+             of a 7404.
+           - Connect pin 13 (4A) of the 75189 with pin 3 (RS232 In)
+             of the MIDI IN port .
+           - Connect pin 11 (4Y) of the 75189 with pin 2 (Rx Data) of
+             the MIDI ACIA .
+           - Connect a resistor (1K Ohm, probably 10K works as well) with
+             pin 11 (4Y) of the 75189 and Vcc.
+           - Connect pin 3 (1Y) of the 75189 with pin 1 (RS232 Out) of
+             the MIDI IN port.
+           - Connect a resistor (1K Ohm) with pin 3 (1Y) of the 75189
+             and Vcc.
+           - Connect pin 1 (1A) of the 75189 with pin 6 (Tx Data) of
+             the MIDI ACIA.
+           - Finally, you should install the circuit board somewhere on
+             the motherboard.
+ 
+These are all hardware modifications in order to get a second RS232
+port.  There is, however, some software necessary before you actually
+can use the new port. First, the baud rate has to be programmed into
+timer A. A small assembly program is given below.  Second, the ACIA
+registers have to be set up to the proper values. At boot time they
+get set to 8-Bit, no-parity.  Third, you have to write programs which
+actually use the port.  I, for my part, changed GEM-KERMIT and my
+TERMINAL accessory in order to work with the MIDI port.
+ 
+SETTING THE BAUD RATE:
+ 
+* Initialize Timer A as baud rate generator for MIDI ACIA
+*
+* Bernhard Nebel 14.12.86
+*
+* valid values for data and control are:
+*       baud    control data
+*       19200   1       1
+*       9600    1       2
+*       4800    1       4
+*       3600    1       5
+*       2400    1       8
+*       2000    1       10
+*       1800    1       11
+*       1200    1       16
+*       600     1       32
+*       300     1       64
+*       200     1       96
+*       150     1       128
+*       134     1       143
+*       110     1       175
+*       75      2       64
+*       50      2       96
+ 
+ 
+gemdos  equ     1
+bios    equ     13
+xbios   equ     14
+ 
+Pterm0  equ     $00
+Cconws  equ     $09
+ 
+rsconf  equ     15
+setprt  equ     33
+xbtimer equ     31
+ 
+ 
+modem   .equ    *
+ 
+        move.l  #-1,-(sp)               vector
+        move.w  #64,-(sp)               data
+        move.w  #1,-(sp)                control
+        move.w  #0,-(sp)                timer = A
+        move.w  #xbtimer,-(sp)
+        trap    #xbios
+        add.l   #12,sp
+ 
+        move.l  #mess,-(sp)
+        move.w  #Cconws,-(sp)
+        trap    #gemdos
+        addq.l  #6,sp
+ 
+        move.w  #Pterm0,-(sp)
+        trap    #gemdos
+ 
+* strings
+ 
+        .even
+mess    dc.b "MIDI port initialized (300 baud, 8-Bit, Nosync).",$0D,$0A,0
+ 
+Have fun - Bernhard
+} MAILER STANFORD  7/15/87
+v Mail Delivery Subsy NEBEL@DB0TUI11.BITN  7/15/87 Returned mail: User unknown
+Acknowledge-To: <NEBEL@DB0TUI11>
+ 
+
+$ 
--- a/textfiles.com/computers/2w93358a.txt
+++ b/textfiles.com/computers/2w93358a.txt
@@ -0,0 +1,83 @@
+                    Guide to PGP Operations in a Secure Environment
+
+The following document provides a series of notes and examples which are designed
+to help the PGP novice user to properly maintain and care for public keys in a
+secure environment using the PGP utility software.
+
+Item     Activity              Operative Command     Results/Disposition
+  No.  
+       1 Install System                              Set DOS PATH command in
+                                                     AUTOEXEC.BAT so that DOS can
+                                                     always find PGP; Set the DOS
+
+
+                                                     ENV variable TZ=-3 (EST). Set
+                                                     the DOS Env. Variable PGPPATH
+                                                     to the drive and sub-directory
+                                                     where you have your keyrings.
+                                                     This will make PGP available
+                                                     all the time.
+
+       2 REBOOT                Ctrl-Alt-Del          Required to make DOS Changes
+                                                     (Item 1) work.
+
+       3 Generate Secret Key   PGP -kg               System will create public and
+                                                     private keyrings in
+                                                     subdirectory specified by
+                                                     PGPPATH as specified in (1)
+
+       4 Create Public Key     PGP -kxa <user id>    This command will extract a
+                               <keyfile>             "Public Key" from your keyring
+                                                     and put it in <keyfile>.
+                                                     Specify the <user id> to be
+                                                     extracted.  To get ready to
+                                                     send out you public key: give
+                                                     your own user id. Save
+                                                     <keyfile>.
+
+       5 Note: At this point you can send a message to someone and include your
+         Public Key.  After you have done that, then THEY will be able to send
+         you a PGP crypted message.
+
+       6 Received Message      Ah Ha!                Save this message.  You will
+         containing Public                           need to process this using
+         Key for a remote                            PGP, shortly.
+         correspondent.
+
+**************************************************************************************
+           ACTIVITY               EVENT              ACTION TAKEN BY PGP
+**************************************************************************************
+
+       7 Add Public Key(s) to  PGP <filename>        PGP will add any key(s) found
+         your keyring                                in <filename> to your Keyring
+
+                               New Key, without      PGP will ask if you want to
+                               authenticating        Authenticate these keys.  You
+                               signature(s)          would only do this if you have
+                                                     personnally received the key
+                                                     directly from a trusted
+                                                     person.
+
+                               New Key, with  Known  ?? Does PGP Authenticate the k
+                               Authenticating
+                               Signatures
+
+                               New Key, with a bad ??
+                               signature
+
+                               New key with 1 good ??
+                               and 1 bad signature
+
+                               Existing key, with    PGP will check the new key to
+                               no signature          be sure it matches the old key
+
+                               New key matches       No action
+                               existing key
+
+                               New key not same as   ??
+                               old key
+
+**********************************************************************
+                   
+END
+
--- a/textfiles.com/computers/386486.txt
+++ b/textfiles.com/computers/386486.txt
@@ -0,0 +1,121 @@
+A LOW COST PERFORMANCE BOOST FOR YOUR 386 PC
+
+If you own a 386 based PC, you may be a little envious of the owners of all
+these speedy new 486 based PCs. I know that I was. I say WAS because I
+now get 486 class performance out of my old 386 system and I did not
+spend a fortune. If you have a 386 system you may also be interested in
+this upgrade.
+
+THE Cx486DLC
+
+Introduced in the summer of 1992, Cyrix produces a processor called the
+Cx486DLC.  The Cx486DLC is a cross between Intel's 386DX and 486SX.  The
+Cx486DLC is pin compatible with the 386DX and instruction set compatible
+with the 486SX.  Like the 486SX the Cx486DLC contains an internal cache
+and an optimized execution unit.  The cache and optimized execution unit
+are the main reasons that a 486 is faster then a 386 at the same clock
+rate. By replacing your 386 CPU with the Cx486DLC you get 486 class
+performance without replacing your PC.
+
+To be sure that your PC is upgradable to the Cx486DLC, check through the
+following:
+
+1 - The PC must be based on a 386DX (sometimes called a 386 or 80386)
+from Intel or AMD.  PCs based on the 386SX can not use this upgrade. 
+
+2 - Remove the cover of your PC and locate the CPU.  It is a 1.5 inch
+square IC.  It should be labeled Intel or AMD 386DX.  There must be
+about 2 inches of open space above the CPU.  The Cx486DLC runs hotter
+than the 386DX and typically requires a heat sink mounted on top of the
+chip. The additional space is required by the heat sink.
+
+3 - You should have a socket on the motherboard for a 387 math
+co-processor. You may have a 387 already installed.
+
+If your PC meets all of the above requirements you can perform the
+upgrade.  I checked around for the best prices on the Cyrix chips and
+found that CompuAdd express offers the best deal.  They sell upgrade
+kits for their line of scalable PCs.  Each upgrade kit includes the
+Cx486DLC, a Cyrix math co-processor, the heat sink and a chip puller for
+removing the old 386 CPU.  While they are intended for use with
+CompuAdd's line of PCs, they are ideal for our upgrade and are quite a
+bargain.  At the time I'm writing this, the price of a 33 Mhz upgrade
+kit has just dropped to $159 and a 40 Mhz kit has dropped to $249.  A
+math co-processor alone costs about $100.  The upgrade kit to order if
+your PC runs at 33 Mhz or slower is the 433DLC.  The 40 Mhz kit is the
+440DLC. 
+
+PERFORMING THE UPGRADE
+
+Remove the cover from your PC, locate the 386 CPU.  Note the location of
+pin 1 on the CPU.  Pin 1 is marked by a dot or cut off corner on the
+chip.  Use the chip puller to carefully pry the CPU out of it's socket. 
+Work slowly around the chip as to not bend any of the pins.  Place the
+486DLC into the socket with pin 1 in the same orientation as before. 
+Carefully press the chip into the socket.  Once the chip is in place,
+power on the PC, it should beep and power up normally.  Power down the
+PC, install the heat sink on top of the Cx486DLC and install the math
+co-processor as instructed in the manual for the PC (you may need to
+move a jumper in addition to installing the chip).  Replace the cover
+and you are ready to go.  The PC should now run normally.  To get the
+full speed increase you will also need a program that activates the
+Cx486DLC's cache.  I've written such a program, called CYINIT.  You
+download a copy of CYINIT (in the archive 386486.ZIP) from both
+Compuserve or Genie.  It is in the IBMAPP section on Compuserve and in
+Don Lancaster's PSRT on Genie.  If would like a copy on disk, I will
+provide one if you send me a check for $10.00.  Once the system is up
+and running add CYINIT to your autoexec.bat file.  That way the cache
+will automatically be activated when you start your PC. 
+
+THE PERFORMANCE IMPROVEMENT
+
+I've upgraded several systems and found that the CPU performance
+typically improves about 50%. Figure 1 shows the typical improvement
+shown in the ZD Labs benchmark tests. The system upgraded was a 33 Mhz
+386DX with a 64 K external cache and an Intel 387 math coprocessor (also
+called an FPU - Floating Point Unit). The performance improvement varied
+with the different tests, but averaged out to about a 50 % improvement.
+The FPU test also showed that the Cyrix math coprocessor offered a large
+speed gain over the Intel math coprocessor. Figure 2 compares the
+performance of a 33 Mhz 386, a 33 Mhz Cx486DLC, a 33 Mhz 486DX, a 40 Mhz
+Cx486DLC and a 66 Mhz 486DX2 running the 386 instruction mix from the ZD
+Labs benchmark. As it shows the 486DLC gives 486 class performance to
+your old 386 PC at a bargain price.
+
+RESOURCE LIST
+
+Cyrix
+2703 North Central Expressway
+Richardson, Texas 75080
+
+In my article on upgrading your 386 PC to a 486. I recommended CompuAdd
+Express as the best place to purchase the upgrade. Just recently
+CompuAdd has shutdown the Express division and the upgrade kit is no
+longer available from them. In scanning through the Computer Shopper I
+have found the following list of vendors that sell the Cyrix CPUs ( I
+have have not dealt with any of these outfits so these are not
+endorsements on my part):
+
+Buffalo Products	1-800-345-2356
+
+L.A. Trade		1-800-433-3726
+
+Nevada Computer		1-800-892-2928
+
+Treasure Chest		1-800-677-9781
+
+PC Importers		1-800-886-5155
+
+In addition the Cyrix distributors are:
+
+Bell Micro Pro		1-800-955-1999
+
+Bell Industries		1-800-BUY-BELL
+
+I hope that these numbers could be published in the next edition to aid
+those looking to upgrade.
+
+Robert G. Brown
+30 Wicks Road
+E. Northport NY 11731
+
--- a/textfiles.com/computers/400top.txt
+++ b/textfiles.com/computers/400top.txt
@@ -0,0 +1,329 @@
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͻ
+  <20>                                                                         <20>
+  <20>          SatisFAXtion Modem/400: Solutions to Common Problems           <20>
+  <20>                                                                         <20>
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͼ
+
+   CONFLICTS WITH 8514A COMPATIBLE VIDEO BOARDS
+
+     The IBM 8514a and compatible video boards will conflict with any modem
+     or faxmodem you configure as COM4. This is because 8514a and
+     compatible video boards use the I/O address 2E8 which is the I/O
+     address used by COM4.
+
+     If you use an 8514a or compatible video board, DO NOT set your modem
+     or faxmodem to COM4. Neither the video board nor the modem will
+     operate reliably.
+
+     This also applies to video boards based on the S3 chipset.
+
+   S3-BASED VIDEO BOARDS
+
+     Video boards based on the S3 86C911 controller will use the I/O
+     address 2E8 (but won't use IRQ 3). This means you can't address your
+     modem as COM4.
+
+     The S3 controller has several features derived from the IBM 8514/a
+     adapter. Along with these features comes inherent issues with 8-bit
+     devices.
+     The 86C911 is a 16-bit device that uses x2E8h, x6E8, xAE8, xEE8h to
+     access its enhanced more register; all 16 bits are decoded. Since the
+     AT bus decodes only the lower 10 bits of the I/O address, conflicts
+     will occur between the 86C911 and other devices using the same
+     addresses.
+
+   WINFAX PRO LOCKS UP WHEN VIEWING FAILED RECEIVE
+
+     SatisFAXtion/200, /400, and Classic:
+     When running CASMGR 1.40, WinFax Pro may lock up when you view a
+     failed receive event in the WinFax log. Delrina's fix for this problem
+     is now available on CompuServe and the Delrina BBS in an archive file
+     called CAS.EXE. The archive file contains a program named a README
+     file and the program CASFIX.EXE. The README file instructs you to add
+     the CASFIX command immediately following the CASMGR command in your
+     AUTOEXEC.BAT file.
+
+   CONFIGURING YOUR SYSTEM'S MEMORY
+
+     For information on configuring your system's memory for use with
+     SatisFAXtion products, order FaxBACK document 4149.
+
+   HOW TO CREATE LOGO FILES
+
+     For detailed instructions on how to create logo files using various
+     graphics programs, order FaxBACK document 4006.
+
+
+
+
+
+
+
+
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+
+  October 29, 1992           Intel FaxBACK # 4044                      Page 1
+
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͻ
+  <20>                                                                         <20>
+  <20>          SatisFAXtion Modem/400: Solutions to Common Problems           <20>
+  <20>                                                                         <20>
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> (continued) <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͼ
+
+   THE INPUT FILE CONTAINS HP GL/2 COMMANDS...
+
+     ...that are not supported by the emulator. Try setting your
+     application to use an HP LaserJet II printer driver.
+
+     While FAXPOP does support the HPPCL (Hewlett-Packard Printer Control
+     Language) up to and including verison 5, FAXPOP doesn't support the
+     HPGL (Hewlett-Packard Graphics Language). Use a printer driver that
+     doesn't incorporate HPGL commands.
+
+     For WordPerceft 5.1, use either an HP LJIII driver dated 3-92 or
+     earlier or just use an HP LJII driver.
+
+   CAN'T PRINT ON POSTSCRIPT PRINTER
+
+     Version 1.40 of the FAX.EXE program only prints on PostScript printers
+     when you select Print from the View Screen. If you print from any
+     other menu, the computer appears to send the data and the printer
+     appears to accept it. However, the page never actually prints.
+
+     Intel has corrected the problem and an updated MA.UTL file is
+     available on FaxBACK. The MA.UTL file is still version 1.40, but the
+     date on the file is 6-92 or later.
+
+     SatisFAXtion Modem/200 users, order document 0028.
+     SatisFAXtion Modem/400 users, order document 0029.
+
+   MODEM WON'T AUTOANSWER WHEN SLS ENABLED
+
+     If the SatisFAXtion board is set for "Shares phone line, mostly fax
+     calls", "shares phone line, mostly voice calls", or "Shares phoneline,
+     has a distinctive ring", modem callers MUST include the characters  @#
+     at the end of their dialing string. The "@" command tells the calling
+     modem to wait for a period of silence (30 seconds by default). The "#"
+     character tells the answering SatisFAXtion board the call is from a
+     modem.
+
+     Otherwise, if no CNG tone is detected, the SatisFAXtion board will
+     assume the call is a voice call and ring the downline phone. If users
+     truly need the board to arbitrate between fax and modem calls without
+     user intervention, then they must set the SLS setting for "has its own
+     phone line".
+
+   NO DIALTONE ON DOWN-LINE PHONE
+
+     SatisFAXtion/200, SatisFAXtion/400
+     If you get a clicking sound or no dialtone on your down-line phone
+     after selecting one of the "Shares phone line" answering options, try
+     selecting the answering option "Has own phone line".  If you get a
+     dialtone then, check the version number on your DOWNLOAD file. If you
+     have a DOWNLOAD.200 version earlier than 2.04 or a DOWNLOAD.400
+     version earlier than 3.01, call FaxBACK and order the latest DOWNLOAD
+     file for your board.
+
+
+
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+
+  October 29, 1992           Intel FaxBACK # 4044                      Page 2
+
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͻ
+  <20>                                                                         <20>
+  <20>          SatisFAXtion Modem/400: Solutions to Common Problems           <20>
+  <20>                                                                         <20>
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> (continued) <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͼ
+
+     Order 0028 for the Latest DOWNLOAD.200   (SatisFAXtion/200 only)
+     Order 0029 for the latest DOWNLOAD.400   (SatisFAXtion/400 only)
+
+   TROUBLESHOOTING SEND/RECEIVE PROBLEMS
+
+     If you're having trouble sending or receiving, here are some thing you
+     can try:
+
+     <20>    Always load a disk cache program BEFORE loading CASMGR.
+
+     <20>    Always load network software BEFORE loading CASMGR and FAXPOP.
+
+     <20>    Do not load anti-virus software in TSR mode.
+
+     <20>    If you use the STACKER program to increace your disk storage
+          space, always load the STACKER drivers BEFORE loading SATISFAX.SYS
+          in your CONFIG.SYS file.
+
+     <20>    If you use QEMM 6.0, disable the STEALTH feature. Later versions
+          may or may not have this STEALTH mode problem fixed.
+
+   V.17 14.4KBPS RECEIVE STATUS REPORT
+
+     For the latest status on the SatisFAXtion Modem/400 high-speed receive
+     problem, order FaxBACK document 9983.
+
+   TELENET
+
+     Several customers have reported problems using this service. These
+     range from locking the system to not being able to connect.
+
+     SatisFAXtion/400:
+     SatisFAXtion Modem/400 users should use DOWNLOAD.400 version 3.02 or
+     higher when calling Telenet.
+
+     SatisFAXtion Classic:
+     SatisFAXtion users need software version 1.20 to connect to Telenet.
+     Also please note that you must type  @  then press ENTER to get the
+     Telenet prompt.
+
+   CONFIGURING YOUR COMMUNICATIONS SOFTWARE
+
+     If your communications software doesn't list your SatisFAXtion
+     faxmodem but does list an Intel modem, choose the equivalent Intel
+     modem:
+
+     Intel Modem           SatisFAXtion Faxmodem
+     <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>   <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+     14.4EX                Modem/400, Modem/400e
+     9600EX                Modem/400, Modem/400e  (Set port speed to 57600)
+     2400 MNP/2400EX MNP   Modem/200
+     2400B/2400EX          Modem/100
+
+
+
+
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+
+  October 29, 1992           Intel FaxBACK # 4044                      Page 3
+
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͻ
+  <20>                                                                         <20>
+  <20>          SatisFAXtion Modem/400: Solutions to Common Problems           <20>
+  <20>                                                                         <20>
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> (continued) <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͼ
+
+     If your communications software doesn't list any Intel modems, order
+     the FaxBACK Communications software Index (document 4351). This index
+     will tell you how to find instructions for configuring many popular
+     communications programs.
+
+   MY SOFTWARE DOESN'T LIST THE INTEL MODEM
+
+     If your communications program doesn't list your Intel modem in the
+     setup screen, try selecting a Hayes compatible configuration.  If the
+     problem persists, change the "Initialization String" to match your
+     modem type:
+
+            Intel Modem                  Initialization String
+            <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>            <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+            Intel V.42 modems (1,2)   :  AT&F\N0\Q0\J1\V0"H0-J0
+            Intel 2400B MNP modems (3):  AT&F\N0\Q0\J1\V0
+            Intel non-MNP modems (4)  :  AT&F&C1&D2
+
+   CARBON COPY FOR WINDOWS
+
+     SatisFAxtion/400:
+     You need DOWNLOAD.400 version 3.02 or higher to use Carbon for Windows
+     with a SatisFAXtion Modem/400. Earlier versions didn't implement the
+     Ring Indicator signal which Carbon Copy uses to detect incoming calls.
+
+   I/O AND IRQ CONFLICTS
+
+     When two devices share the same I/O address or IRQ (interrupt), one or
+     the other (or both) devices may not work correctly.  To eliminate the
+     potential for conflicts, make sure each device you add to your
+     computer occupies a unique I/O address and IRQ.
+
+     Standard COM (serial) Port Address/IRQ Settings
+
+                   I/O
+            Port   Address   IRQ
+            ----   -------   ---
+            COM1     3F8      4
+            COM2     2F8      3
+            COM3     3E8      4
+            COM4     2E8      3
+
+     Intel faxmodems and modems come with a program called TESTCOM.EXE that
+     can tell you what I/O address and IRQs are in use. Change to the disk
+     or directory containing TESTCOM.EXE and enter this command:  TESTCOM
+     /S
+
+     If TESTCOM reports that only COM1 is active, set the modem to COM2.
+     If TESTCOM reports both COM1 and COM2 active, disable the COM2 port in
+     your computer (if possible) so that you can set the modem to COM2.
+     See the user's guide for your computer to find out how to disable a
+     COM port.
+
+
+
+
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+
+  October 29, 1992           Intel FaxBACK # 4044                      Page 4
+
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͻ
+  <20>                                                                         <20>
+  <20>          SatisFAXtion Modem/400: Solutions to Common Problems           <20>
+  <20>                                                                         <20>
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> (continued) <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͼ
+
+     If you're using both COM1 and COM2 or can't disable COM2, you may be
+     able to use COM3 or COM4 depending on the devices attached to COM1 and
+     COM2.  A mouse and a modem will not successfully share an IRQ.  A
+     printer and a modem sometimes can share an IRQ.
+
+     The Intel SatisFAXtion faxmodems, Intel internal 2400 baud modems, and
+     the Connection CoProcessor Modem Option allow two additional
+     configurations:
+
+     COM3   3E8   IRQ 5  (works in 286/386/486-based (AT) computers)
+     COM4   2E8   IRQ 2  (works in 8088/8086-based (PC/XT) computers)
+
+     NOTE:      Before configuring your modem for COM3/IRQ 5 or COM4/IRQ 2,
+                make sure your communications software supports these ports.
+
+     NOTE:      Never use IRQ 5 in 8088/8086-based computers because IRQ 5
+                is used by your hard drive. Never use IRQ 2 in 286/386/486-
+                based computers because IRQ 2 is used to "cascade" the two
+                interrupt controllers.
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+  <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+
+  October 29, 1992           Intel FaxBACK # 4044                      Page 5
--- a/textfiles.com/computers/401bugs.txt
+++ b/textfiles.com/computers/401bugs.txt
@@ -0,0 +1,176 @@
+                 2 Suspected Bugs in MsDos v4.01
+                             6/5/91
+                               by
+                      William S. Ataras III
+
+
+'Discovered',  tested  and copyrighted 1991 by David M.  Cox  and 
+William S. Ataras III.
+
+See how to contact us at the end of this document.
+
+We  work  with  satellite imagery. This  type  of  work  commonly 
+involves the manipulation of files between 1 and 200 megabytes in 
+size. In the course of writing and copying such data, we  believe 
+we've run across 2 bugs. They are detailed below:
+
+
+---------------------------  Bug #1  ----------------------------
+
+The included program 32MEG.ASM uses the following 4 Dos functions 
+to create, write, and close 32MEG.DAT and exit:
+
+3Ch     - Create file handle.
+40h     - Write BUFSIZE bytes to file handle.
+3Eh     - Close file handle.
+Int 20h - Exit.
+
+BUFSIZE  is  a  symbol equate in 32MEG.ASM.  The  included  files 
+2048.COM and 2000.COM are the compiled versions of 32MEG.ASM with 
+BUFSIZE set to 2048 and 2000 respectively.
+
+The  assembly  source  was compiled  and  linked  with  Borland's 
+assembler TASM v1.01 and linker TLINK v2.0 as follows:
+
+     tasm 32meg
+     tlink /t 32meg
+
+I  tested the programs in the root directory of my C: which is  a 
+Connor  CP-3104 106meg harddrive. There was no  AUTOEXEC.BAT  and 
+the CONFIG.SYS looked like this:
+
+     files     = 30
+     buffers   = 30
+     lastdrive = z
+     shell     = c:\command.com /p /e:1024
+
+My  computer  is a 386 20mhz with 4megs of ram,  3megs  extended. 
+The  same  results occured with a similar test  on  a  completely 
+different 386 machine and different harddrive.
+
+A run of Norton 4.50 DI.EXE produced:
+
+DI-Disk Information, Advanced Edition 4.50, (C) Copr 1987-88, Peter Norton
+
+  Information from DOS         Drive C:       Information from the boot record
+-------------------------------------------------------------------------------
+                               system id             'MSDOS4.0'         
+                        media descriptor (hex)               F8         
+             2               drive number                               
+           512             bytes per sector                 512         
+             4            sectors per cluster                 4         
+             2              number of FATs                    2         
+           512          root directory entries              512         
+           214              sectors per FAT                 214         
+        54,722            number of clusters                            
+                           number of sectors            219,351         
+             1               offset to FAT                    1         
+           429            offset to directory                           
+           461              offset to data                              
+                           sectors per track                 33         
+                                 sides                        8         
+                            hidden sectors                   33         
+
+
+Theoretically, the program should generate a dummy file well over 
+32 megabytes in length. You must have about 41 megs free on  your 
+disk.  It  works  fine  when the  BUFSIZE  equate  is  2048;  the 
+resulting  32MEG.DAT  is  41,943,040 bytes  long.  However,  when 
+BUFSIZE  is  changed to 2000, 2 things happen.  First,  it  takes 
+nearly  twice as long to write the file. Given the fact that  Dos 
+clusters and BIOS disk sectors are always powers of 2, it is  not 
+unreasonable  to  expect that some additional magic  must  happen 
+behind  the  scenes when such abitrary and  rather  inconsiderate 
+byte  counts  are  written.  BUT,  this  was  not  expected;  The 
+resulting  file  should have been 43,008,000 bytes long.  It  was 
+33,554,000 bytes long; the highest even multiple of 2000 below 32 
+megabytes. 
+
+A run of 'CHKDSK /F' produced 'Allocation error in  C:\32MEG.DAT, 
+size  adjusted'.  Another 'DIR' told me the file  was  43,008,000 
+bytes long as it should have originally been.
+
+
+
+
+---------------------------  Bug #2  ----------------------------
+
+This  problem  involves the ramdisk provided by  the  MsDos  4.01 
+driver RAMDRIVE.SYS.
+
+I  tested this in the root directory of my C: which is  a  Connor 
+CP-3104  106meg  harddrive.  There was no  AUTOEXEC.BAT  and  the 
+CONFIG.SYS looked like this:
+
+     device    = c:\dos\ramdrive.sys 2048 128 64 /e
+     files     = 30
+     buffers   = 30
+     lastdrive = z
+     shell     = c:\command.com /p /e:1024
+
+My computer is a 386 20mhz with 4megs of ram, 3megs extended. The 
+same results occured with a completely different 386sx 16mhz with 
+4megs, 3megs extended and different harddrive.
+
+The rawdisk was D:.
+
+A run of Norton 4.50 'DI.EXE D:' produced:
+
+DI-Disk Information, Advanced Edition 4.50, (C) Copr 1987-88, Peter Norton
+
+  Information from DOS         Drive D:       Information from the boot record
+-------------------------------------------------------------------------------
+                               system id             'RDV 1.20'         
+                        media descriptor (hex)               F8         
+             3               drive number                               
+           128             bytes per sector                 128         
+             4            sectors per cluster                 4         
+             1              number of FATs                    1         
+            64          root directory entries               64         
+            48              sectors per FAT                  48         
+         4,079            number of clusters                            
+                           number of sectors             16,384         
+             1               offset to FAT                    1         
+            49            offset to directory                           
+            65              offset to data                              
+                           sectors per track                  1         
+                                 sides                        1         
+                            hidden sectors                    0         
+
+I  had  an  arbitrary image file DATA.DAT in  C:\.  DATA.DAT  was 
+1,300,480  bytes long. Running the following batch file over  and 
+over  produced  random  lost clusters  consistently  on  the  2nd 
+attempt.
+
+     copy data.dat d:
+     del d:data.dat
+     dos\chkdsk d:
+
+Changing the 2048 in CONFIG.SYS to 2047 to look like this...
+
+     device    = c:\dos\ramdrive.sys 2047 128 64 /e
+     files     = 30
+     buffers   = 30
+     lastdrive = z
+     shell     = c:\command.com /p /e:1024
+
+made the bug go away. I was able to run the same batch  'forever' 
+without a hitch (as I should have happened previously).
+
+
+
+---------------------------  Summary  ---------------------------
+
+Feel  free to try these tests on your machine if you  have  MsDos 
+4.01.  I'm sure you'll get similar results. I'd be interested  to 
+know if you didn't.
+
+Contact us by:
+
+Leave a message to Bill Ataras on Ed's BBS at (408)-384-3658.
+
+OR Write:
+
+Bill Ataras
+38 Village Dr. #8
+Carmel Valley, Ca. 93924
--- a/textfiles.com/computers/450baud.txt
+++ b/textfiles.com/computers/450baud.txt
--- a/textfiles.com/computers/486vs040.txt
+++ b/textfiles.com/computers/486vs040.txt
@@ -0,0 +1,295 @@
+
+
+
+               CISC  :  The Intel 80486 vs. The Motorola MC68040
+              ---------------------------------------------------
+
+               Source : Advanced Microprocessors by Daniel Tabak
+
+               Scribe : X-> Mike <-X  -  July '92
+
+              ---------------------------------------------------
+
+
+System Comparison
+
+        Most of the space in this text is dedicated to the most recent
+advanced CISC microprocessors, the top current products within their families;
+the Intel 80486 and the Motorola MC68040.   They both belong to the latest
+1.2 million transistors per chip generation.   It therefore makes sense
+to compare the two.   It would be unfair to compare the NS32532 with them,
+since the NS32532 belongs to an earlier generation and it is not in the same
+class as the 80486 and MC68040.
+ 
+        A selection of points of comparison between the 80486 and the MC68040
+is listed in Table 1.1.   Looking carefully at the table, one can perceive
+only a single line indentically marked in both columns: both chips have an
+on-chip FPU, conforming to the IEEE 754-1985 standard.   All other data are
+different, although quite close in some instances.   The points of difference
+between the 80486 and the MC68040 will be discussed next in some detail.
+ 
+ 
+         Table 1.1   Comparison of Intel 80486 and Motorola MC68040
+-------------------------------------------------------------------------------
+       Feature                         Intel 80486       Motorola MC68040
+-------------------------------------------------------------------------------
+FPU on Chip                            Yes (IEEE)        Yes (IEEE)
+CPU General-Purpose 32-bit Registers   8                 16; 8 Data/8 Address
+FPU 80-bit Registers                   8 (stack)         8
+MMU on Chip                            Yes               Yes; Dual: Data, Code
+Cache on Chip                          8k Mixed          4k Data + 4k Code
+Segmentation                           Yes               No
+Paging                                 Yes; 4k/page      Yes; 4k or 8k/page
+TLB (or ATC) size                      32 entries        64 entries in each:
+                                                           Data, Code ATC
+Levels of protection                   4                 2
+Instruction pipeline stages            5                 6
+Pins                                   168               179
+-------------------------------------------------------------------------------
+
+ 
+CPU General-Purpose Registers
+ 
+        Both systems have 32-bit general-purpose registers; the 80486 has 8,
+while the 68040 has double that number, namely 16.   There are advantages
+(and disadvantages) to having a large register file.   The register file of
+the 80486 is definitely too small to avail itself to the advantages.   This
+is particularly exacerbated by the fact that the CPU registers of the 80486
+are not really quite as general purpose as one might wish.   In fact, all of
+them are dedicated to certain special tasks, such as:
+ 
+EAX, EDX    Dedicated to multiplication/division operations
+EDX         Dedicated to some I/O operations
+EBX, EBP    Dedicated to serve as base registers for some addressing modes
+ECX         Dedicated to serve as a counter in LOOP instructions
+ESP         Dedicated to serve as a stack pointer
+ESI, EDI    Dedicated to serve as pointers in string instructions and as
+            index registers in some addressing modes
+
+On the other hand, on the MC68040 the eight 32-bit data registers D0 to D7
+are genuinely general purpose without any restrictions or specific tasks
+imposed on them.   Of the eight 32-bit address registers A0 to A7, only A7
+is dedicated as a stack pointer.   The user is free to use the other seven
+resgisters A0 to A6 in any possible way.
+ 
+        From the point of view of the CPU register file, the MC68040 has a
+very clear advantage.   It is much better equipped to retain intermediate
+results during a program run, thus reducing CPU-memory traffic.   From this
+standpoint, the MC68040 even has a slight edge over the VAX architecture.
+The VAX (any VAX model) also has sixteen 32-bit general-purpose registers.
+However, only 12 of those (as opposed to the 68040's 15) can be used freely
+by the programmer.   Of the four VAX dedicated registers, one is used as a
+program counter and another as a stack pointer.   The program counter is
+completely separate on both the MC68040 and the 80486 and is not included in
+the general-purpose registers.
+ 
+ 
+FPU General-Purpose Registers
+ 
+        Both systems have eight 80-bit registers, providing a large range for
+floating-point number representation and a high level of precision.   The only
+differnce between the two is that the 80486 FPU registers are organized as a
+stack, while those of the MC68040 are accessed directly, as its integer CPU
+registers.   Because of the stack organization the 80486 might have a slight
+edge from the standpoint of compiler generation (for that part of the compiler
+dealing with floating-point operations).
+ 
+ 
+MMU on Chip
+ 
+        The 80486 has a regular MMU on chip for the control and management of
+its memory.   The MC68040 has two MMUs: one for code and one for data.   This
+duality, supported by a separate operand data bus, allows the control unit to
+handle instruction and operand fetching simultaneously in parallel and enhances
+the handling of the instruction pipeline.   Of course, the external bus leading
+to the off-chip main memory is single (32-bit data, 32-bit address), and it is
+shared by instructions and data operands.   With a reasonable on-chip cache hit
+ratio, the off-chip bus would be used less often.
+ 
+ 
+Cache on Chip
+ 
+        The total on-chip cache of both systems is 8 kbytes.   Interestingly
+enough, they have the same parameters: both are four-way set-associative with
+16 bytes per line.   The difference is that while the 80486 on-chip 8k cache
+is mixed, storing both code and data the MC68040 cache is subdivided into two
+equal parts: a 4-kbyte data cache and a 4-kbyte code cache.   Each cache is
+controlled by the respective MMU, mentioned above.   The advantage, as in the
+MMU case, is the provision of two parallel paths for code and data, resulting
+in an overall speedup of operation.
+ 
+ 
+Segmentation
+ 
+        The Intel 80x86 family implements segmentation, while the M68000 family
+does not.   The earlier Intel systems (8086, 80286) were plagued with the upper
+64-kbyte segment size limit, starting with the 80386 and so on, the segment sizecan be made as high as 4 Gbytes (maximum size of the physical memory),
+effectively removing the segmentation feature by the decision of the user.
+Therefore, as far as segmentation is concerned, the 80486 and MC68040 are
+comparable.   The 80486 has some edge, since it allows the user to implement
+segmentation if needed and avail oneself to its advantages.
+ 
+ 
+Paging
+ 
+        The MMUs of both systems feature paged virtual memory management.
+The 80486 offers a single standard page size of 4 kbytes.   This page size
+is implemented in many other systems.   With a 4-kbyte page size, one can
+arrange an address mapping where the page directory and the page tables also
+have the standard page size of 4 kbytes (1024 = 2^10 entries, 4 bytes each).
+Thus, the page directory and the page tables can be treated as entire pages
+and placed within page frames in the memory.   This results in reduced
+complexity in the MMU hardware and in the OS software, one of whose tasks is
+to support the management of virtual memory.   The MC68040 offers two page
+sizes, selectable by the user: 4 kbytes and 8 kbytes.   This tends to
+complicate the MMU logic and the OS.   It is a good thing that Motorola got
+rid of the other page size options available with its MC68851 paged MMU:
+8 sizes ranging from 256 bytes to 32 kbytes, stepped by a factor of 2.   On the
+other hand, the 8-kbyte per page option could be useful to a programmer dealing
+with large modules of code exceeding 4 kbytes.
+ 
+ 
+TLB (or ATC) Size
+ 
+        The 80486 MMU has a 32-entry TLB.   With a 4-kbyte page it covers
+32 x 4 kbytes = 128 kbytes of memory.   The MC68040 offers much more.   The TLB
+is called address translation cache (ATC) by Motorola, but it does the same:
+it translates virtual into physical addresses.   The name given by Motorola is
+simpler to perceive, although the TLB term is predominately used in the
+computer literature.   Each of the two MC68040 MMUs has a 64-entry ATC, for a
+total of 128 entries on the chip.   For a 4-kbyte page, a total of 128 x 4
+kbytes = 512 kbytes of memory is covered (4 times that of the 80486), and for
+an 8-kbyte page, 1 Mbyte (8 times that of 80486).   In this case, a strong
+advantage of the MC68040 is obvious.   Since the ATCs encompass much more
+memory, the ATC miss probability is considerably smaller.   Thus, less time
+will be wasted in accessing page tables in memory, resulting in faster overall
+operation.
+ 
+ 
+Levels of Protection
+ 
+        The 80486 offers four levels of protection, while the MC68040 has only
+two - the supervisor and user, as does the whole M68000 family.   While the
+protection mechanism of the 80486 is much more sophisticated and, with the
+segmentation encapsulation of information, offers more reliable protection,
+it also results in more complicated on-chip logic.   More time is taken up with
+protection checks on the 80486.
+ 
+ 
+Instruction Pipeline Stages
+ 
+        The 80486 instruction pipeline has five stages, while that of the
+MC68040 has six.   This means that the 80486 pipeline can handle five
+instructions simultaneously and the MC68040 can handle six.   This certainly
+gives an edge in favor of the MC68040, although its MMU-cache-internal buses
+duality is a much stronger contributor to its enhanced speed of operation.
+The above comments are valid if the instructions are executed sequentially,
+without any taken branches.   In the case of the taken branch, the subsequent
+prefetched instructions are flushed from the pipeline hardware.   Neither
+the 80486 nor the MC68040 employ the delayed branch feature, as do most of
+the RISC-type systems.   The MC68040 designers have investigated the possibilityof featuring a delayed branch or other techniques to alleviate the problem of
+lost cycles in case of a flushed pipeline.   After a number of simulations,
+they came to the conclusion that the gain in performance was not worth the
+extra hardware expenditure incurred in the implementation of any of the methods
+considered.   In RISC-type systems, on the other hand, due to reduced control
+circuitry there is extra space for features such as the delayed branch which
+alleviates the pipeline management problem in case of a taken branch.   Indeed,
+Intel's RISC 80860 and Motorola's RISC M88000 both implement the delayed branch
+technique as an option, selectable by the user.
+ 
+ 
+Performance Benchmarks
+
+
+Dhrystone Benchmark Version 2.1   (Integer Performance Test -- ALU)
+-----------------------------------------------------------------------------
+     System               Results - Kdhrystones/s            Relative
+-----------------------------------------------------------------------------
+VAX 11/780                        1.6                           1.0
+Motorola MC68030 (50 Mhz,1ws)    20.0                          12.5
+Intel 80486 (25 Mhz)             24.0                          15.0
+SPARC (25 Mhz)                   27.0                          16.8
+Motorola M88000 (20 Mhz)         33.3                          20.1
+MIPS M/2000, R3000 (25 Mhz)      39.4                          23.8
+Motorola MC68040 (25 Mhz)        40.0                          24.3
+Intel 80860 (33.3 Mhz)           67.3                          40.6
+-----------------------------------------------------------------------------
+
+
+        As one can see, the MC68040 Dhrystone integer performance considerably
+exceeds that of the 80486.   It should also be noted that the MC68040
+outperforms its predecessor MC68030 by a factor of 2, while the MC68030
+operates at a double frequency.
+
+
+Linpack Benchmark (Double-Precision, 100x100)   (F-P Performance Test -- FPU)
+-----------------------------------------------------------------------------
+     System               Results - MFLOPS
+-----------------------------------------------------------------------------
+VAX 11/780                        0.14
+NS32532 + NS32381                 0.17
+Intel 80386 + 80387 (20 Mhz)      0.20
+VAX 8600                          0.49
+Intel 80486 (25 Mhz)              1.0
+Motorola M88000 (20 Mhz)          1.2
+Sun SPARCstation 1                1.3
+Decstation 3100 (MIPS R2000)      1.6
+Sun 4/200 (SPARC)                 1.6
+Am29000 (25 Mhz)                  1.71
+IBM 3081                          2.1
+Motorola MC68040 (25 Mhz)         3.0
+R3000/R3010 (25 Mhz)              3.9
+Intel 80860                       4.5
+RS/6000 (25 Mhz)                 10.9
+Cray 1S                          12.0
+Cray X-MP                        56.0
+-----------------------------------------------------------------------------
+
+
+        Here, the MC68040 outperforms the 80486 by a factor of 3.   This
+performance ratio is well supported by the discussion given for the data
+in Table 1.1.
+
+        The fact that more RISC-type processors, tested above, outperform the
+80486 CISC should not escape notice either.   This is particularly significant
+for floating-point performance where the 80486 has an on-chip FPU, while the
+R3000 and the SPARC use off-chip coprocessors.
+
+        A comparison of memory access clock cycles needed for the execution of
+ADD instructions is reported in the following:
+
+
+Memory Access Clock Counts
+-----------------------------------------------------------------------------
+    Source        Destination         MC68040        80486        M88000
+-----------------------------------------------------------------------------
+ADD reg           reg                    1              1            1
+ADD mem           reg (cache hit)        1              2            3*
+ADD reg           mem (cache hit)        1              1            3*
+ADD mem           reg (cache miss)       3              4           15*
+-----------------------------------------------------------------------------
+ --"reg" represents a CPU register and "mem" represents a location in memory.
+  *Includes time to load register plus one clock for the ADD operation.
+ 
+ 
+        The superior performance of the MC68040 fits the discussion given
+earlier in this text.   It should also be noted that both the MC68040 and
+80486 have an on-chip cache, while the M88000 cache is on a separate CMMU
+chip (MC88200).
+ 
+ 
+        It should be noted that all of the above comparisons were conducted
+with artificial benchmark programs such as Dhrystone.   It is quite possible
+that for some "real-life" programs the performance ordering might be quite
+different.   It is no accident that when company A conducts benchmark
+experiments, its products come out ahead of others.   It is quite possible
+that when another company, say B, publishes its own benchmark results, the
+performance ordering may look different.   Therefore, the sample of benchmark
+comparison results presented should be regarded as a tentative indication.
+They are certainly not conclusive.
+ <*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*>
+ <*>									 <*>
+ <*>   >>> THIS TEXTFILE PASSED THROUGH IMAGINE BBS ++46-42-135505 <<<   <*>
+ <*>       """""""""""""""""""""""""""""""""""""""""""""""""""""""       <*>
+ <*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*><*>
+          <<3C><>S<EFBFBD>C<EFBFBD>O<EFBFBD>O<EFBFBD>P<EFBFBD>E<EFBFBD>X<EFBFBD><58><EFBFBD>S<EFBFBD>W<EFBFBD>E<EFBFBD>D<EFBFBD>E<EFBFBD>N<EFBFBD><4E><EFBFBD>H<EFBFBD>E<EFBFBD>A<EFBFBD>D<EFBFBD>Q<EFBFBD>U<EFBFBD>A<EFBFBD>R<EFBFBD>T<EFBFBD>E<EFBFBD>R<EFBFBD><52>>
--- a/textfiles.com/computers/4chan8bi.asc
+++ b/textfiles.com/computers/4chan8bi.asc
@@ -0,0 +1,252 @@
+From: fdeck@sleepy.helios.nd.edu (francis deck)
+Subject: CHEAP 8-BIT ADC FOR IBM PC
+
+PLANS FOR A 4-CHANNEL 8-BIT ANALOG-TO-DIGITAL CONVERTER FOR PC
+
+                        Francis J. Deck
+                   fdeck@grumpy.helios.nd.edu
+
+This is an extremely simple ADC for the PC.  It connects to the parallel 
+printer port, and runs from a 9V battery.  All parts are available from 
+Digi-Key Corporation (1-800-DIGI-KEY), and cost is under $20, including box!  
+Input voltage range is 0 to 5 V.  Driver software is in Turbo Pascal.  I 
+measured the speed to be roughly 1200 samples/sec on an 8 MHz XT, and 5700/sec 
+on the same PC with a 10 MHz 80286/cache accelerator card turned on.
+
+You'll see that this circuit doesn't require a bidirectional 8-bit i/o port.  
+It should work even on the most wild of clones.  I've had it going on IBM, 
+Zenith, Jameco, etc.
+
+Needless to say, this is not an extreme precision device, but should suffice
+for many medium-speed application, such as temperature logging or alarms.  An 
+LM34 temperature sensor (10 mV/F output) would allow 2 degree resolution, for 
+instance.  For signals which are noisy beyond 1 LSB (roughly 20 mV), taking 
+several readings and averaging them will improve the effective resolution by 
+the square root of the number of readings.
+
+SCHEMATIC DIAGRAM:
+          ________________
+       + |                |
+       __|__              |
+        ___   9 V         |
+       _____  battery     |
+        ___               |
+         |                |
+         |                |
+       __|__             <
+        ___               >    1 K Resistor
+         _               <
+                          >                    Parallel Printer Port:
+                          |                    (pin numbers shown are
+                          | 1                  for DB25 male plug)
+                   _______|_________
+                  |      V+         | 12           2
+                  |             clk |----------------o D0
+Inputs:           |                 | 2            3
+                3 |             cs' |----------------o D1
+    A0 o----------| in0             | 13           4
+                4 |             din |----------------o D2
+    A1 o----------| in1             | 10          10
+                5 |            dout |----------------o Acknowledge
+    A2 o----------| in2             | 7           18
+                6 |            dgnd |----------------o Ground
+    A3 o----------| in3             |         |
+                8 |                 |         |
+   Gnd o----------| agnd            |       __|__
+                  |                 |        ___
+                  |  ADC0833CCN     |         _
+                  |  A to D Conv.   |
+                  |                 |
+                  | vcc     vref/2  |
+                  |_________________|
+                     | 7       | 9
+                     |         |
+                     |         | +2.5 V
+                   __|__       |
+           0.1 uF  _____       |
+           Disc      |         |
+           Capacitor |         | +
+                     |     ____|___|
+                     |     |  / \
+                     |       /   \      LM336Z-2.5
+                     |      /_____\     Precision Reference IC
+                     |         |
+                     |         | -
+                     ----------|
+                             __|__
+                              ___
+                               _
+
+Note:  The pins of the LM336 can be identified as follows:  The (+) terminal is 
+the middle pin.  Now, look at the lettering on the chip, while holding the chip 
+with pins down and lettering facing you, the (-) terminal is on the right.
+
+Some notes:  First, V+ is the input to an internal Zener regulator, and power 
+supplies ranging from +9 to +15 V can be used.  This makes it convenient to 
+mount the circuit inside an existing powered device, such as a light meter.  
+The circuit can also be powered by eliminating the battery and resistor, and 
+connecting a +5 V supply to the Vcc terminal. 
+
+I made a tiny little printed circuit board for this device, but it's hardly 
+necessary, considering the low component count.  A little piece of perfboard 
+will suffice.  Don't use cables longer than 1m to connect to the PC, since 
+raw TTL isn't very good for long-haul data transmission.
+
+PARTS LIST [fmg - prices may have changed since the time this was posted!]
+
+All the parts come from Digi-Key Corp, 1-800-DIGI-KEY.
+
+        Component       Part #          Price
+        ---------       ------          -----
+        ADC0833         ADC0833CCN      $5.00
+        LM336-2.5       LM336Z-2.5      1.05
+        1k ohm          1.0KQ           .26/5
+        0.1 uF          P4311-ND        1.70/10
+        DB25 male plug  225M-ND         1.08
+        14-pin IC skt.  A9314           .29
+        9 V batt. snap  BS6I-ND         .22
+        9 V batt.       P104            1.04
+        ----------------------------------------
+                        TOTAL:          10.64
+
+DRIVER SOFTWARE LISTING
+
+These codes are all written in Turbo Pascal.
+
+{-------- ADC driver ANALOG.PAS -------}
+
+unit analog;
+
+interface
+
+{-------- User-modifyable constants ------}
+
+const
+     nlpt = 1; {printer port number}
+     vref = 2.5; {reference voltage for ADC}
+
+{-------- Read an ADC channel --------}
+
+function analog_read (ch: integer): real;
+
+implementation
+
+var
+   in_addr, out_addr: word; {i/o addresses}
+
+const
+     cs = 2; {ADC chip select line}
+     di = 4; {ADC data input line}
+     clk = 1; {ADC clock line}
+     dout = 64; {ADC data output line}
+
+     a: array[0..3] of byte = {Channel select word, bit #1}
+        (0,di,0,di);
+
+     b: array[0..3] of byte = {Channel select word, bit #2}
+        (0,0,di,di);
+
+{-------- Read an ADC channel --------}
+
+function analog_read (ch: integer): real;
+
+var
+   result: byte;
+   i: integer;
+
+begin
+     {transmit chip setup sequence as per ADC0833 data sheet}
+
+     port[out_addr] := 0;
+     port[out_addr] := di;
+     port[out_addr] := di + clk;
+     port[out_addr] := di;
+     port[out_addr] := di + clk;
+     port[out_addr] := di;
+     port[out_addr] := a[ch];
+     port[out_addr] := a[ch] + clk;
+     port[out_addr] := b[ch];
+     port[out_addr] := b[ch] + clk;
+     port[out_addr] := di;
+     port[out_addr] := di + clk;
+     port[out_addr] := di;
+     port[out_addr] := di + clk;
+     port[out_addr] := 0;
+
+     {the main conversion loop}
+
+     result := 0;
+     for i := 1 to 8 do begin
+         result := result*2;
+         port[out_addr] := clk;
+         if port[in_addr] and dout <> 0 then result := result + 1;
+         port[out_addr] := 0;
+         end;
+     port[out_addr] := cs;
+
+     analog_read := result*vref*7.8125e-3;
+     end;
+
+{-------- Initialization Section --------}
+
+const
+     base: word = $40;
+     offs: array[1..3] of word = ($08,$0a,$0c);
+     dummy: real;
+
+begin
+     {find out where printer port is}
+
+     out_addr := memw[base:offs[nlpt]];
+     in_addr := out_addr + 1;
+
+     {place ADC in idling mode}
+
+     port[out_addr] := cs;
+
+     {read ADC a few times to let it settle}
+
+     dummy := analog_read(0);
+
+     end.
+
+{-------- End of ANALOG.PAS ---------}
+
+{-------- Test program TEST.PAS --------}
+
+program test;
+
+uses
+    crt,
+    analog;
+
+var
+   i: integer;
+
+begin
+     while not keypressed do begin
+           for i := 0 to 3 do write (analog_read(i):3:3,' ');
+           writeln;
+           delay (500);
+           end;
+     end.
+
+{-------- End of TEST.PAS --------}
+
+If there is suitable interest in this topic, measured by how much e-mail y'all 
+send me, I will continue to post simple circuits.  In the future, I may have 
+to switch to Postscript or HP-GL format for the schematics, which I'd mail to 
+interested persons.
+
+[fmg - the above started a heated debate on the format of posted schematics -
+       the result of which seems to have been loss of interested in posting
+       them... bummer]
+
+Incidentally, there's a real *gold mine* of inexpensive ICs out there which do 
+all sorts of things, and which, like the ADC0833 above, use *synchronous 
+serial i/o*, meaning that the send and receive data one bit at a time under 
+control of an external clock signal.  This kind of i/o is very conducive to 
+parallel port connection, as I've shown.  I will soon post a list of such 
+chips which range from ADC and DACs to remote digital peripherals to EEPROMs 
+to graphic equalizers!
+
--- a/textfiles.com/computers/4dostips.txt
+++ b/textfiles.com/computers/4dostips.txt
@@ -0,0 +1,102 @@
+
+
+
+
+
+FFF        FFFFFFFFF   FFFFFFFF   FFFFFFFF
+FFF    FFF FFFFFFFFFF FFFFFFFFFF FFFFFFFFFF
+FFFFFFFFFF FFF    FFF FFF    FFF FFFFFFF
+FFFFFFFFFF FFF    FFF FFF    FFF    FFFFFFF
+       FFF FFFFFFFFFF FFFFFFFFFF FFFFFFFFFF
+       FFF FFFFFFFFF   FFFFFFFF   FFFFFFFF
+
+Specific information........
+
+
+
+
+
+
+
+
+
+
+<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+
+Edit a 4dos.ini file if you don't have one.
+It should look something like this:
+
+Alias = 4096
+Environment = 1264
+History = 4096
+
+set alias and environment as low as possible, but remember to leave
+space for bat files and programs that use the space. A environment
+of 100 more that required is good. It is good to set the alias space
+as low as possible. Set the history as high as you prefer. I like 4k,
+others might like more...
+
+UMBLoad = Yes
+UMBEnvironment = Yes
+UMBHistory = Yes
+UMBAlias = Yes
+
+If you have umb's, specify these 4 lines!
+
+DescriptionMax=200
+
+ALWAYS insert this line! Now you can describe up to 200 characters, which
+is more than enough in most cases. The default of 40(?) is almost never
+enough...
+
+-------------------------------------------------------------------------------
+If you need file-descriptions that is MORE that 200 characters, remove
+the attributes on the DESCRIPT.ION file (attrib -h descript.ion)
+edit it, and turn the attributes back on (attrib +h descript.ion)
+-------------------------------------------------------------------------------
+
+>HistWinHeight=32
+
+If you drive your screen at text resolutions of 50 lines or more, have
+the luxury of a bigger history window! (PgUp, PgDn, etc.)
+
+<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+
+The prompt leaves you many fancy options other that $p$g.....
+Mine, help from 4dos and ansi.sys, shows time, date, free memory
+(conv, xms, ems), free hd space (all drives), in full colours...
+
+You can find it in the extras\prompt.set, which you will have to load
+with SET /R [name of file]. Modify it as you like, bacause it is free to
+spread!
+
+<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+
+With 4dos, you have the luxury of specifying to "md" or "cd" several
+directories at once. You can, for instance, md a b c d e f, in which
+will make the directories "a" "b", etc....
+
+You can even create a total tree with the "/s" parameter.
+This will allow you to create directories more than one level deep at once.
+
+fx: md c:\hi\I\am\here!
+
+will work, even if "c:\hi" does not exist in forehand!
+
+<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+
+In 4dos, the command-line separator is "^".
+That means that you can write several commands on one line, fx.
+
+cls^dir /w /s|list /s^pause^cls
+
+This method can in turn create neat aliases, and if you need examples,
+look at MY aliases file! (Included in EXTRAS\aliases.ali        !!!!
+
+<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
+
+Be sure to remap your most used commands in dos to 1-key punches,
+to maximize performance. See my alias-file for guidance.
+Ex: "d" is "dir", etc....
+
+<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
--- a/textfiles.com/computers/500hacks.txt
+++ b/textfiles.com/computers/500hacks.txt
@@ -0,0 +1,739 @@
+      == == == From - lae@mullauna.cs.mu.oz.au (Lewin EDWARDS) == == ==
+    -= A DIY Guide to Computer Repair & Modification (PC and Amiga 500) =-
+   [Note : To people who saved my earlier post re: installation of the 1Mb
+       Agnus, discard it and get a copy of this instead; the 1Mb Agnus
+                   installation procedure is included here]
+
+                  -=<* About This Document - Disclaimer *>=-
+
+This document is intended to provide electronics hobbyists with some useful
+notes the author has gathered whilst working on various systems. It is not
+intended to train or encourage novices to attempt service or modifications
+to expensive appliances. It is especially not intended to encourage
+unqualified personnel to tamper with dangerous appliances such as monitors,
+power supplies and other devices which contain vacuum tubes, live mains or
+high-tension rails, or other hazardous areas. Any such work carried out is
+done at the reader's own risk and the author accepts no reponsibility for
+damage to property or person which occurs as a result of attempting any of
+the procedures described herein.
+        Having said that, I can vouch for the workability of the
+modifications listed here. I have personally performed them all myself on my
+own machines (this is, after all, a chronicle of my own experiences, chopped
+up under suitable headings for your convenience). With regards to the service
+information, whilst I have described problems and the solution(s) I found,
+keep in mind that this is rather like a doctor prescribing medication over
+the telephone or from an encyclopaedia. What I mean by this statement is that
+different problems may well cause the same symptoms; to take a trivial
+example, if you turn your monitor on and nothing happens, perhaps the fuse is
+blown, but on the other hand, perhaps it is not plugged in, or perhaps there
+is a more sinister fault in the power supply section. For this reason, I
+suggest you use the service information as a very vague guide ONLY. Remember;
+it is very rare to find two machines which are exactly the same inside, and
+so what I have found to be a suitable solution to a given fault may be
+totally inappropriate to your situation.
+
+                      -=<* The Commodore Amiga 500 *>=-
+
+i. Serial Killer
+----------------
+Problems with Amiga serial ports generally fall into three categories; problems
+with the flow control lines, problems with the actual data transmission lines,
+and problems with the line level (caused by faulty line driver chips). The
+first two can be relatively costly to repair, due to Commodore's monopoly on
+the CIA and Paula chips, so I advise exploring the line driver section of the
+circuit before rushing out to buy new Paulas or CIAs.
+        Faults in the line driver chips (MC1488 and MC1489, U38 and U39
+respectively in the schematic on page F-7 of the book 'Introduction to the
+Commodore Amiga 500') are typified by either total loss of transmission, total
+loss of reception, or both. If you look at the flow control lines, (CTS and
+RTS), you usually see that these lines are behaving normally (exactly why
+these lines are rarely affected is a mystery to me); if not, then you probably
+have a faulty CIA. Since the 1488 and 1489 only cost around A$1.00 each,
+depending on your source, it is well worth replacing these chips before you
+investigate Paula. Unfortunately, they are not socketed so you will have to
+desolder them (see "Desoldering Small IC's" below). When you have the chips
+out, put in a couple of sockets to facilitate later repairs.
+        If, after replacing the 148x's, you still experience problems, it is
+time to look further. If you have suitable software, you can check whether the
+problem lies in the flow control lines (in which case you have a damaged even
+CIA, U8) or in the data lines (in which case you have a damaged Paula). If you
+do not have, or are unable to interpret the results of, this software, you can
+make use of an old Amiga-tech wrinkle; exchange the CIA chips and see if your
+fault clears up. If it does, then ten to one the problem is in the CIA which
+started out as U8; if the problem persists, then it is most likely a Paula
+fault.
+
+ii. Floppy Hassles
+------------------
+In my life I have opened at least 40 Amiga 500's and have NEVER seen two which
+have the same make and model of internal floppy. It seems that Commodore
+change their suppliers (and also the colors of the LEDs on the keyboard) on a
+weekly basis. Let's see.. three possible LED colors (red, green, yellow),
+three LEDs on the keyboard, four floppy manufacturers (Sankyo, Chinon,
+Panasonic, Sony), two different styles of head connector (one film connector
+per head or one wide film connector servicing both heads), helical screw or
+belt-drive head carriage mechanisms.. that makes 144 possible configurations
+already. For this reason it is not possible to give specific "look-to-the-left-
+of-the-large-chip" directions, and I can only state a couple of possible faults
+and their possible causes :
+
+* Floppy refuses to acknowledge disk insert
+Probably caused by a defective odd CIA (U7). Try switching the CIAs over. Also
+check that the switches at the front of the drive travel freely up and down.
+Verify that the pads to which the switch assembly is connected have not flaked
+off the board (this can be caused by rough disk insertion).
+
+* Floppy will not read disks formatted in other drives
+The head alignment is faulty. There is a method of adjusting it without
+special tools and measurement devices, but it requires considerable patience
+and one of the X-Copy series of programs. The method is as follows :
+- Format a disk in a working drive.
+- Open your machine (or external drive). Remove the cover from the drive unit
+(it is usually held on by one screw on either side and another on top at the
+back). Locate the track zero sensor and loosen the screw which holds it in
+position. Load X-Copy and select the Toolkit option CHECKDISK.
+- You must now align the lower head. This can be accomplished by moving the
+track zero sensor a little, then checking the disk, and repeating this until
+you find a position in which the drive will read the lower side of the disk.
+When this is done, tighten the screw which holds the track zero sensor, to
+stop it shifting. If you have any Lok-Tite, a drop of that on the screw is
+advisable.
+- You must now align the upper head. Loosen the two screws which hold it to
+the head carriage assembly (Do NOT remove these screws, unless you relish the
+idea of going over the floor with a metal detector looking for small springs).
+Adjust the upper head by eye until it appears to be exactly over the lower
+head. Now repeat the above trial-and-error process, tweaking the upper head
+around until you find a workable position. Tighten the screws, replace the
+cover and reassemble.
+        If the above procedure sounds rigmarolish and uncertain, it is ! But
+I have successfully performed it on a number of Amiga and PC 3.5" drives. And
+I have never had a failure with it.
+
+iii. Caps Lock Chaos
+--------------------
+Many Amiga owners will know, to their detriment, that occasionally the Caps
+Lock light will start blinking and the keyboard will lock up. This is caused
+by the microprocessor in the keyboard detecting a keyboard fault. I first
+noticed this fault when our school Amiga room (two rev. 5a A500's) acquired an
+autofire joystick, a Quickshot IIb I think. When switched to autofire mode,
+this joystick would periodically jam the keyboard. If you have recently
+acquired an autofire joystick, you should investigate whether turning it off
+during boot fixes the problem. Otherwise, you can try the old "Atari Twist",
+ie pick up your machine in both hands and twist it. This is basically
+equivalent to reseating the chips on the motherboard; if you have a spare
+moment, I suggest you actually open the machine up and manually reseat them.
+
+iv. Bulimia of the Agnus
+------------------------
+iv-1. What is the 1Mb Agnus ?
+-----------------------------
+The 1Mb Agnus (variously known as the Obese Agnus or Fatter Agnus), Commodore
+part 8372a or 318069-02, is the relatively new Agnus which is capable of
+addressing 1Mb of chip-RAM. This allows you to have twice the amount of
+sampled music, screens, and other custom-chip data in memory simultaneously.
+It also has the desirable effect of letting you run things like Deluxe Paint
+in 16-color 640x512 (or 640x400, NTSC users) mode, without having to
+disconnect external drives, close down WorkBench screens and the like. For
+A-Max users, installing the new Agnus and configuring it to 1Mb chip-RAM mode
+will also increase A-Max compatibility. If you have more than 1Mb of RAM, then
+it will make A-Max virtually 100% identical to a Mac Plus, memory-map-wise.
+NOTE WELL : This modification requires 1Mb of RAM to be visible !
+
+Commodore, not wishing to make two chips where one will do, is now shipping
+the 8372a in most (nearly all Rev. 6a) A500's, without telling anybody. In
+these machines, the extra chip-RAM capability has been disabled so that if you
+connect an A501, it will still think it is "slow" [see below] RAM.
+
+iv-2. An Aside on Memory Speeds
+-------------------------------
+The Amiga has *three* types of RAM. Chip-RAM, Fast-RAM and "Slow"-RAM.
+Contrary to what many people assert, RAM at $C00000 (the default location of
+the A501 expander, and the second 512K of RAM in A2000's) is NOT fast-RAM,
+even though the system reports it as such. Because this RAM is refreshed and
+accessed via Agnus, it is affected by buss contention in just the same way as
+chip-RAM. It is simply a dead area in RAM which is not accessed by the custom
+chips and which is not faster than chip-RAM. Moving this RAM to $80000 (which
+is what you do to enable 1Mb chip-RAM) will have no effect on machine speed at
+all.
+
+iv-3. Compatibility
+-------------------
+To date (20-Oct-91, 18:11EST) I have personally tested at least 400 pieces of
+software with the new Agnus. I have found three programs which do not work :
+* Double Dragon II (Completely screwed up)
+* VideoFX 3D (Again, completely useless)
+* Impossible Mission II (This game requires memory at $C00000. It does not
+mind the Agnus, but if you want to run it you must drop back to
+512K chip/512K slow mode. Lousy AllocAbs() programmer !)
+In addition, Dragon Ninja thinks you are running on a 512K machine and will
+not play in-game music. Again, this can be rectified by switching into 512K
+chip/512K slow mode. Some other games also think they are running on a 512K
+machine, notably TechnoCop and R-Type, but this is of no real consequence.
+
+iv-4. Identifying the Version of your A500
+------------------------------------------
+There are several versions of the A500 out there. I have only tried fitting
+the new Agnus to the following :
+ a. The Revision 5 board shipped until early 1989
+ b. The new Revision 6a board supplied from May (?) 1989 onwards
+The way to identify your machine type is to check the expansion port which
+lurks under a plastic cover on the left-hand side of the computer. The Rev. 5
+machine has a very fat strip (double width) at the back of the connector; the
+Rev. 6a board has two normal-width strips instead.
+
+iv-5. Installing the 8372a to Revision 5 A500's
+-----------------------------------------------
+1. Remove the 8371 from its socket. If you are an NTSC user who does not wish
+to use the PAL mode, go to step 3.
+2. Pin 41 of the new Agnus controls whether the machine starts up in PAL or
+NTSC modes. When it is tied low (to ground), the machine boots in NTSC mode.
+When the line is tied high or left floating (ie unconnected), it boots into
+PAL mode. On the Rev. 5 board, pin 41 is connected to ground by tracks on BOTH
+sides of the board, making it virtually impossible to cut the track without
+desoldering the socket. This means if you just plug in the new Agnus, you will
+be locked in NTSC mode !! There are a couple of ways to go about circumventing
+this problem; I will detail here the one I undertook on my own Rev. 5 board. I
+will assume you want to install some sort of switch to toggle PAL/NTSC mode.
+If you only want to run in PAL mode, you can simply bend out pin 41 of the
+Agnus socket (don't bend the pin on the chip) to prevent it from making
+contact with Agnus. If you do this, proceed to step 3. Otherwise, get yourself
+an SPDT or SPST toggle switch and two lengths of telephone (or other thin,
+stiff single-core wire). Solder wires to the switch :
+
+                            +---+
+    To a convenient ground--+-o |  BACK VIEW OF SWITCH
+                   +--------+-o |  When held as shown, UP=PAL, DOWN=NTSC.
+                   |        | o |
+                   |        +---+
+ Uninsulated --> | | <-- This side is insulated
+                 \-/ <-- Fold the wire thru 180 degrees
+
+3. Insert the new Agnus. If installing the switch, you should now poke the
+loose end of wire (see above) from the switch into pin 41 of the socket so
+that the bare copper side touches the pin on the chip and the insulated side
+touches the pin on the socket. In order to fit the wire down the hole you may
+find it necessary to bend out or remove entirely [Not recommended !] the pin
+on the socket. Secure the wire with a tiny drop of cyanoacrylate adhesive.
+
+4. If you wish to install a memory mode switch, go to step 5. Otherwise,
+locate JP2 (between 68000 and ROM). This consists of three pads. The center
+and lower pads are joined by a thin track. Cut this track and place a drop of
+solder between the center and upper pads. Now locate the _EXRAM line coming
+from the A501 port (it comes from pin #32 and runs on the upper side of the
+motherboard parallel to the A501 connector). Cut this line. You have now
+completed the installation procedure.
+
+5. Complicated. Locate JP2 and cut the track which joins the center and lower
+pads. Locate the _EXRAM line from the A501 port (see step 4) and cut the
+track. Solder wires to all three pads of JP2 and one wire to either side of
+the gap you cut in the _EXRAM track. Wire a DPDT switch as follows :
+
+                   +-----+  BACK VIEW OF SWITCH
+Upper pad of JP2 --+-o o |  When held as shown, UP=512K CHIP, DOWN=1M CHIP
+Center pad of JP2 -+-o o-+- To one side of the gap in the _EXRAM track
+Lower pad of JP2 --+-o o-+- To the other side of the gap
+                   +-----+
+You have now completed the installation procedure.
+
+iv-6. Installing the 8372a to Revision 6a A500's
+------------------------------------------------
+1. Remove the 8371 from its socket. Insert the new 8372a. NTSC users who do
+not wish to use the PAL mode should go to step 3. When installing the new
+Agnus, note that on the 6a board, the Agnus socket has been rotated 90 degrees
+anti-clockwise from the orientation on the revision 5 board. For this reason,
+plugging in the Agnus correctly is no longer an intuitive operation !
+2. JP4 controls PAL/NTSC video mode. If you are in North America or Hong Kong
+or anywhere else the National Television Standards Committee TV format is
+used, this should be bridged by a track or a blob of solder. If you are in
+Australia, Europe or anywhere else the Phase-Alternated Linescan TV format is
+used, this jumper should be cut open. If you wish to install a switch, then
+simply connect it across the two pads of the jumper.
+3. Cut the track joining the center and upper pads of JP2, and the track
+joining the center and upper pads of JP7a. (JP2 is between the CPU and the ROM
+and JP7a is just to the left of the A501 connector). If you wish to install a
+memory switch, proceed to step 4 otherwise solder the center and lower pads of
+JP2 together. You have now completed the installation procedure.
+4. Connect a DPDT switch as follows :
+
+                   +-----+  BACK VIEW OF SWITCH
+Upper pad of JP2 --+-o o |  When held as shown, UP=512K CHIP, DOWN=1M CHIP
+Center pad of JP2 -+-o o-+-- Center pad of JP7a
+Lower pad of JP2 --+-o o-+-- Upper pad of JP7a
+                   +-----+
+You have now completed the installation procedure.
+
+v.  Is My Jumper On The Line ?
+------------------------------
+Number  Rev5 ?  Rev6a ? Function
+-------------------------------------------------------------------------------
+JP1     yes     yes     Connects reset timer (NE555) to main reset
+JP2     yes     yes     Maps A501 at $C00000 or $80000
+JP3     yes     yes     Swaps _CAS of RAM banks (of use for test purposes)
+JP4     no      yes     8371  Agnus : TEST line [solder closed !!]
+                        8372a Agnus : PAL/NTSC video mode select
+JP5     no      yes     28MHz base clock to Agnus
+JP6     no      yes     7MHz clock on pin 7 of expansion connector
+JP7a    no      yes     Controls _EXRAM to Gary
+JP7b    no      yes     CIA tick from VSYNC or pin 32 of A501 (default VSYNC)
+JP8     no      yes     LPEN from FIRE0 or FIRE1
+JP9     no      no      ??? A non-existent jumper. Future Rev. 7 ???
+JP10a   no      yes     Connects AUDIN to pin 18 of serial port
+JP10b   no      yes     Connects AUDOUT to pin 11 of RS232 port
+JP11    no      yes     Connects CSYNC to BCSYNC or video hybrid
+-------------------------------------------------------------------------------
+NB: These are A500 jumpers only. A2000, 2500, 3000 have different jumper
+assignments. The 1000 *may* have similar settings but I cannot guarantee this.
+
+vi. Hol(e)y, Hol(e)y, Hol(e)y
+-----------------------------
+Owners of Rev. 6a A500's will notice that they only have 4 RAM chips as
+opposed to the 16 in the Rev. 5 and earlier machines. They will also note that
+in between the RAM chips are empty sets of holes which look like something
+ought to go into them.
+        Firstly, fear not - the reason you have a quarter the number of RAM
+chips as older machines is that the 6a uses 44256 4-bit x 256K chips which are
+four times as large as the 41256 1-bit x 256K chips used in the 5 and earlier
+revisions. All the modern Amiga memory hardware (except possibly the A501)
+uses these larger chips because they are slightly cheaper on a dollar-per-
+megabyte basis. For example, the older Series I A590 hard drives use the
+41256, and they will accept up to 2Mb. The new Series II A590's use the 44256
+(and consequently have enough space to fit 8Mb of RAM).
+        But, back to those extra holes. They are indeed designed to accept
+something; viz, another set of four 44256's to take your machine up to 1Mb
+without having to buy an A501 or other expander (this is particularly useful
+if you have a memory expansion which uses the A501 slot, and you want to have
+1Mb chip-RAM). If you want to install your own RAM there, you should do as
+follows : Purchase four 20-pin IC sockets (preferably machined-pin). Make sure
+you have a solder-sniffer. Now look at those holes and you will see that they
+are clogged by solder (this is due to the way the boards are soldered; the
+process covers all exposed copper areas with solder). You must clean this
+solder out by heating the board from one side and sniffing the solder out on
+the other (or blowing the solder through; if you choose this method, make sure
+to remove all the little splashes of solder from the board and your lap). When
+you have cleaned out all the holes, solder in the sockets. Now plug in four
+44256 chips and you have 1Mb of memory for slightly less than the cost of an
+A501 (in Australia, the difference is roughly A$20).
+        With respect to the speed of RAM chips required, I use 150ns chips
+with no problems at all; however, I suspect that Commodore would recommend
+100ns devices. The price difference is minimal so you may as well buy 100ns
+chips so that if you ever buy a series II A590, you can shift the chips over
+and have 100%-guaranteed-not-to-overheat fast-RAM.
+
+vii. 1Mb of Motherboard Memory on the Rev. 5
+--------------------------------------------
+It is possible to install 1Mb of RAM onto the revision 5 motherboard. However,
+this modification is flaky at best and I cannot recommend it (having tried it
+in a moment of sheer boredom). Also note that I could *not* get this extra
+memory to be mapped at $C00000 (the computer would only recognise it if I had
+JP2 set to map the A501 at $80000); which means that it is only of potential
+interest to owners of the 1MB Agnus. (This failure to work as $C0 RAM may well
+have been due to some stupid omission on my part).
+        I will deliberately be vague because this is not a trivial
+modification. If you are unable to work out what to do with confidence, you do
+not have enough knowledge to perform the mod.
+        The procedure can be summarised as follows: Take sixteen 41256 RAM
+chips (for speed information, see the end of subsection vi. above). Bend the
+refresh address strobe pins (_RAS, pin 4) on all the chips up and over so that
+it is well clear of the other pins and easily accessible from the top of the
+chip. Bend in all the other pins a little. Now, piggyback the new chips on top
+of the existing RAM, making sure to install them in the same orientation as
+the original chips. It is not possible to reach all the pins to solder them,
+so you will have to content yourself with only soldering the corner pins.
+Solder wires from the bent-up _RAS pins to pin #38 of the A501 port (or any
+convenient take-off point of this signal). You should now have 1Mb of RAM. (If
+you want to try using it as $C00000 RAM, you should ground the _EXRAM pin, pin
+#32, of the A501 port. I had no success with this). This mod sounds all very
+well, but in the current climate it may be slightly cheaper to buy a
+secondhand A501 than to buy 41256 chips. In addition, due to the precarious
+hold the piggybacked chips have on the originals (because there isn't enough
+room to solder all of the pins down), the mod is sensitive to shock; if you
+tap the table, you can sometimes guru the machine. For this reason, this is a
+"possible but ill-advised" modification.
+
+viii. Double Trouble
+--------------------
+The hack to accelerate your Amiga to 14MHz has been published in countless
+articles, but I may as well include a brief description of it here. The hack
+involves removing the original 68000 from your Amiga and substituting a
+version rated at 16MHz (confusingly called the 68000P-12; the Motorola chips
+have "16MHz" stamped on them, but the SGS-Thompson clones do not). The clock
+pin is bent out and soldered to the output of a divide-by-2 counter whose
+input is connected to the base 28MHz clock. THIS MODIFICATION SHOULD BE
+INSTALLED WITH A SWITCH !! If not, you WILL (not may) find that some games
+will refuse to load because they use timing-dependent loaders.
+        Aside from the problem mentioned above, the only compatibility
+down-side to this modification is that some floppy drives will not handle the
+increased step rate. If you find that your drives give read/write errors at
+the high speed, you can either replace them or run a program called "DFDelay"
+to slow down the step rate. (If df0: will not work, you have a problem. Try
+swapping df1: for df0: - to do which you will need a Commodore df1:. The
+mechanisms used in the old A1010 drives are EXTREMELY reliable and much
+quieter than the new rubbishy things; if you have an A1010, you can be fairly
+certain that it will support the new speed).
+        To perform the mod, remove your old 68000 and embed it in a perspex
+block for future reference. Now rig half of a 74S74 dual D bistable as a
+divide-by-2 counter. Connect the input of this to a convenient take-off point
+of the 28MHz clock line on the motherboard (I use pin #34 of Agnus, but
+anywhere will do). Now bend out pin 15 of the new CPU and solder a wire to
+this pin. Take a piece of stiff telephone wire, strip approx. 5mm of
+insulation from one end, and stick this end down pin 15 of the 68000 socket.
+Insert the new CPU in the socket and verify that pin 15 is well clear of the
+wire in the socket. Now wire a SPDT switch as follows :
+
+                                            BACK VIEW
+                                     +---+  When held as shown UP=7.14MHz,
+   To output of divide-by-2 counter -+-o |  DOWN=14.28MHz
+                 To pin 15 of 68000 -+-o |
+  To wire in pin 15 of 68000 socket -+-o |
+                                     +---+
+
+The 74S74 should be mounted somewhere convenient; I break off all the unused
+pins, bend the remaining pins out, and stick the chip on top of one of the
+data path IC's; this has the advantage of allowing me to take power directly
+off the existing components rather than stringing yet another pair of wires
+through the machine.
+        If you only have chip and/or slow memory (see subsubsection iv-2.)
+then your machine will run at approximately 150% normal speed (on
+CPU-intensive operations; DMA rates will be unchanged). If you have true
+fast-RAM then code running from fast-RAM will execute at close to 200% of
+normal speed. Try placing a large perpective brush with anti-aliasing HIGH
+in DeluxePaint III (or IV !) and you will see the speed increase.
+
+ix. The Numbers Game
+--------------------
+This is how PLCC chips are numbered (using Agnus as an example) :
+
+                1 1                   8 8 8 8 8 7 7 7 7 7
+                1 0 9 8 7 6 5 4 3 2 1 4 3 2 1 0 9 8 7 6 5
+ BEVELED CORNER | | | | | | | | | | | | | | | | | | | | |
+              /-------------------------------------------|
+         12 -|                      o                     |- 74
+         13 -|                                            |- 73
+         14 -|                                            |- 72
+         15 -|                                            |- 71
+         16 -|                                            |- 70
+         17 -|                                            |- 69
+         18 -|                                            |- 68
+         19 -|                                            |- 67
+         20 -|                   8372A                    |- 66
+         21 -|                                            |- 65
+         22 -|                                            |- 64
+         23 -|                 TOP  VIEW                  |- 63
+         24 -|                                            |- 62
+         25 -|                                            |- 61
+         26 -|                                            |- 60
+         27 -|                                            |- 59
+         28 -|                                            |- 58
+         29 -|                                            |- 57
+         30 -|                                            |- 56
+         31 -|                                            |- 55
+         32 -|                                            |- 54
+             |____________________________________________|
+                | | | | | | | | | | | | | | | | | | | | |
+                3 3 3 3 3 3 3 4 4 4 4 4 4 4 4 4 4 5 5 5 5
+                3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3
+
+x. A Change Of Face
+-------------------
+Installing the ECS Denise is simplicity itself. Simply remove the old Denise
+and plug the new one straight in. Note that to use the new video modes, you
+require the 1Mb Agnus (not necessarily in 1Mb chip-RAM mode, though). By
+installing the new Denise, you also eliminate the annoying video glitches
+which occur in NTSC mode when using the new Agnus with the old Denise.
+
+xi. Snap, Crackle and Pop
+-------------------------
+[For non-Australians, the above is the slogan a local cereal company uses to
+advertise a tasteless soggy mess called Rice Bubbles].
+        Symptom : Your monitor produces snapping or popping noises, and
+sometimes goes unaccountably blank after being switched on for a while.
+        I have no idea why this problem seems to affect Commodore monitors so
+badly. It is caused by arcing of the EHT rail (around 14kV, from memory) to
+lower-voltage areas of the set. Initial treatment is to turn off the monitor,
+leave it for a couple of days (to allow capacitors to discharge), and then to
+remove every last speck of dust from the inside. This usually works.
+        If it does not, however, sterner measures are called for. Open your
+monitor and (here comes the dangerous part) leave it running, open, for a few
+hours. If you actively work against Murphy's Law by watching it from behind
+something or inside something, where the monitor can't see you, you MAY
+eventually be lucky enough to actually catch it in the act of arcing. Mark the
+place with a spirit pen and spray on some anti-gaussing compound. (This stuff
+has a very high dielectric constant and hence helps to prevent arcs).
+
+xii. Yo Ho Ho And A Packet Of Disks
+-----------------------------------
+I sometimes describe A-Max as the only useful productivity tool for the Amiga;
+Mac owners will agree with me when I say that Macintosh applications are
+incomparably better than their Amiga counterparts. However, due to suppression
+of the source of 128K ROMs by a certain computer mega-corporation named after
+a piece of dead plant, the future of this marvellous product looks slightly
+less certain than Melbourne hosting the 1996 Olympic Games (grin).
+        There exists a software patch which will allow you to [illegally] run
+the emulator using a ROM image file on disk; however, if you wish to use a Mac
+drive with the A-Max cartridge, you must have ROMs or EPROMs in the ROM
+sockets. Problem ? No. Simply insert two blank 27512 64K x 8 EPROMs in the ROM
+sockets.
+
+NB: The above procedure is wholly illegal and the author is not explicitly
+condoning nor advocating the practise. I personally own original Apple 128K
+ROMs (purchased before the great ROM drought). The above information is
+supplied for interest's sake only.
+
+                 -=<* The 80x86-Based PC/XT/AT-Compatible *>=-
+
+i. Tools of the Trade
+---------------------
+Since I come across many cards and peripherals of doubtful functionality, I
+have invested in a 10MHz 286 motherboard with just enough RAM to get started,
+plus a $20 Hercules card to run diagnostic programs. This is mounted in an
+ancient XT casing, with an equally ancient 150W power supply. The total cost
+of this system was about $150, and it allows me to test all XT and AT cards
+(not EISA cards, but then I have no EISA-buss machines anyway !), drives and
+so on. If you expect to be buying/selling many secondhand cards, drives, SIPPs
+and so on, I heartily recommend buying such a system, unless you are game
+enough to risk your "real" system by putting possibly defective cards in it.
+
+ii. The Heat Is On
+------------------
+In many clone machines, particularly 16MHz or faster 286's which use the AMD
+80286 rather than the Intel original, the CPU becomes extremely warm, too hot
+to touch with the hand. For example, I have a 16MHz Acer motherboard which
+uses an AMD 80286-16 processor, and after 25 minutes of operation at turbo
+speed, the processor is far too hot to be touched for more than half a second.
+This kind of heating is undesirable in that it shortens the chip life and,
+more importantly, may lead to sudden crashes if the chip undergoes thermal
+shutdown. (The so-called XT-286's, XT-class machines with 80286 processors,
+are very susceptible to this problem). If your machine has this undesirable
+property, you should consider attaching some sort of heatsink to the CPU. An
+extra fan in the casing is also an option, though I find them to be relatively
+ineffective for this task.
+        You can also try replacing the CPU with an original Intel chip. For
+some reason, the Intel line stays a lot cooler than the AMD line in general.
+
+iii. Sudden Death
+-----------------
+Scenario : You are working on an important document under an operating system
+known to be bug-free (aren't fairy-tales wonderful ?). You leave the keyboard
+to take your ten-minutes-per-hour anti-RSI coffee break. You return (having
+neglected to save your work), you press a few keys... and nothing happens.
+Your document is there on the screen, but the program has halted.
+        The above is quite often caused by overheating problems (see
+subsection ii). It is also sometimes caused by dirty or otherwise imperfect
+connections between cards or chips and their sockets. If your machine is more
+than 2 years old, it may well be that your sockets are becoming dirty. (An
+interesting anecdote springs to mind about a small LAN of XT-class machines,
+all of which seemed to fail simultaneously. It turned out that the network
+cards used single-wipe sockets which degraded much faster than the dual-wipe
+sockets used on the motherboards, and occasionally the fileserver would start
+to send out a packet, but would only manage to send part of the header before
+the faulty network card corrupted the transfer. Because of a "feature" in the
+network software, all the machines on the LAN stopped operations while waiting
+for an ID sequence to indicate the machine the corrupted packet was destined
+for. This looked exactly like a simultaneous crash on twenty machines and had
+the serviceperson (erm, me) puzzled for quite a few days).
+        The immediate cure for this sort of problem is to pull out all your
+cards, clean the connectors with an ink eraser (pencil erasers are not
+abrasive enough), remove the fragments of eraser and reinsert the cards. You
+can also push down on all the socketed chips to reseat them.
+        Oh yes. The above problem can also be caused by viruses. Use McAfee
+Associates' SCAN (and if necessary CLEAN) programs to detect and kill these.
+
+iv. Overworked FPU's
+--------------------
+Due to the large price discrepancy between the different speed ratings of
+floating-point coprocessors, there is a strong temptation to buy (say) a 25MHz
+387 for your 33MHz 386. The chances are good that such an arrangement will in
+fact work, however note that the power dissipation of the FPU will be
+increased. In simple terms, it will get hot. For this reason, you should
+always look for ceramic-bodied chips, since they can dissipate MUCH more heat
+than plastic-bodied devices. And whenever possible, run in non-turbo mode.
+
+v. Hot-Rodding, Across the Universe
+-----------------------------------
+It is relatively common knowledge nowadays that it is quite possible to
+hot-rod a 16MHz machine to 20MHz or a 33MHz machine to 40-50MHz. This
+naturally carries with it the same overheating problems mentioned in
+subsection iv above. However, if you are determined to undertake such a
+modification, there are a couple of pieces of information you may find useful:
+- For 80286 and 80386 machines, you will need a crystal or oscillator can
+(make sure you know which you need) which is TWICE the frequency you want your
+machine to run at.
+- The crystal to replace is the one rated at TWICE the listed speed of your
+motherboard (ie on a 16MHz board, there will be a 32MHz crystal). Do not be
+led astray by the I/O clock crystal(s) !
+- It is good practice to place a socket on the motherboard where you removed
+the old crystal, so that if you ever have to sell your machine you can pop in
+the original speed of crystal and cover up your tracks.
+        Note that I have never performed this type of enhancement to 80386
+machines; however, this document is being typed on an 80286 which I hot-rodded
+from 12MHz to 16MHz.
+
+vi. Hacked Reset Switches
+-------------------------
+Most 286/386/486 motherboards (all I have ever seen) come with a reset switch
+connection built-in; many XT motherboards do not. Consequently there have been
+a number of postings to USENET describing how to add a pushbutton to the
+_RESET line of the CPU. I find it rather amusing that several such founts of
+wisdom advise the installation of a pullup resistor "to make sure the line
+goes high again after the button is released". Interesting. Does this mean
+that when you turn on your machine, you only have a 50/50 chance that the
+_RESET line will be high enough to let the CPU start ? Of course not. The
+designers already put in a pullup resistor, so there is absolutely no need to
+put in another one. Just connect a normally open pushbutton between the _RESET
+pin of the CPU and any convenient signal ground.
+
+vii. Tearing Your Hair
+----------------------
+Scenario : Your favorite machine, with SoundBlaster, LAN, VGA, Hercules, Voice
+Master, two serial and one multi I/O cards goes down. You don't know where to
+start.
+        The first thing to do in such cases is to remove every card except the
+display adaptor and the floppy controller (if this is integrated with the hard
+disk controller then both will have to stay). You should now simply keep
+adding cards until the machine no longer starts up (assuming it starts up in
+its minimal configuration). Whilst this may sound obvious, you would be amazed
+by the number of people who leave all their cards in and just poke about with
+the jumper settings.
+
+viii. Mix And Match
+-------------------
+It is often very convenient to have two monitors connected to the one machine.
+(I have both VGA and Hercules cards in my "useful" machines). However, not all
+display adapters can be mixed together in the one machine (due to memory
+conflicts). Below is a table of the allowable configurations; a star indicates
+"allowable" and a period (full stop) indicates an illegal combination.
+
+                        with MDA  CGA  EGA MCGA  VGA
+                         MDA  .    *    *    *    *
+                         CGA  *    .    *    .    .
+                         EGA  *    *    .    .    .
+                        MCGA  *    .    .    .    .
+                         VGA  *    .    .    .    .
+
+For the purposes of display mixing, an MDA (mono 80x25 text only) is identical
+to a Hercules Graphics Card (720x348 mono graphics). Note that if you have a
+VGA card as one of your displays (the most common configuration is VGA + MDA
+or Hercules), your VGA card will no longer be able to emulate Hercules modes.
+(If you load up the extended-mode-handler program supplied with most SVGA
+cards, you will be told that the card cannot be switched into mono mode). Note
+the possible pitfall with Hercules cards; most of them contain a parallel
+port, usually switchable from address 3BC to address 378. If you already have
+a parallel port mapped at this address, strange errors will crop up. (Also
+note that if you have parallel ports at 378 and/or 278, and the Herc parallel
+port is at 3BC, the Herc card will become LPT1: - this may necessitate some
+switching of cables). If possible, disable the onboard parallel port, or map
+it to an unused port address.
+        One final note on the subject of video conflicts; a number of clone
+companies have released so-called "color Hercules" cards, which support both
+the Hercules and CGA standards. These cards will not co-reside with any other
+video card.
+
+ix. Expanding SVGA Cards
+------------------------
+Many people ask, "Can I expand my SVGA card ?". In most cases, the answer is
+no. However, occasionally one runs across cards which have sockets for extra
+RAM. The two examples of this which I have seen are Tseng Laboratories SVGA
+cards (mine came with 512K and space for an extra 512K), and Trident cards
+(again, mine came with 512K, but had sockets for the extra RAM). In such
+cases, installing the extra memory is simply a matter of purchasing the
+requisite RAM chips (usually 44256; however, some older cards will use 4464
+or 41256 chips), and installing them in the empty sockets on the card. Before
+you spend the money on this, however, consider - do you really need the extra
+memory ? In the vast majority of SVGA cards, adding the extra RAM only allows
+you to use ONE extra mode, viz. 1024x768x256. This mode is not really useful
+unless it is un-interlaced (stare at an interlaced screen for a few hours and
+you will understand why !). Also, on monitors coarser than 0.28" dot pitch,
+this mode looks EXTREMELY fuzzy, and on some monitors it is not even
+displayed properly (the edges of the screen are compressed). Although my
+cards support this mode, I always use 640x480x256 as my maximum screen
+resolution (except when viewing very large GIFs, eg the 1152x900 pictures
+designed for and/or digitized on Suns).
+        A final note : I have yet to see a card which was supplied with 256K
+which is expandable. Most of these cards were very early models which used
+older (true VGA) chipsets incompatible with the newer de facto video
+standards.
+
+x. To BIOS or not to BIOS ?
+---------------------------
+THe question is often asked, "Which BIOS is best ?". One would imagine that
+the best BIOS should be an original IBM chip; however, since most software is
+developed on clones (I wonder how many people have seen a real IBM recently -
+I haven't seen anything more recent than an original 5-slot PC, although I do
+know of the PS/2, a 286 machine. Does IBM in fact make a 386 ?), a machine
+with a "real" BIOS is not necessarily more compatible than a clone. So the
+choice of BIOS boils down to personal preference. I personally own AMI 286 and
+386 BIOSs, and Award 386 BIOS, and I have used Phoenix 286 and Award 286 BIOS.
+Out of these, I strongly recommend the AMI (American Megatrends) BIOS because
+it seems a lot more sensibly designed than the Award or Phoenix programs. For
+example, the AMI 386 BIOS allows you to set up a whole lot of low-level
+chipset parameters related to memory speed and setup, whilst the Award only
+allows you to set drive and display types. Also, if you have been toying with
+the XCMOS settings and have managed to make your computer non-functional, if
+you have the AMI BIOS, you simply hold down Insert while pressing the reset
+button, and the XCMOS settings will be set to default values, unlocking your
+machine. With the Award BIOS, I had a machine with Hercules and VGA cards, but
+no mono monitor, and I accidentally set the display type to "MONO", meaning
+that the machine booted on the Herc card where I couldn't see anything.. in
+order to get the machine usable again I had to open it and unplug the Hercules
+card to force the BIOS to return to the VGA/EGA display setting. Annoying,
+especially since the machine in question was the bottom (Murphy again !) in a
+stack of three PCs with a monitor on top, all on a very crowded desk.
+        NB: Since the BIOS is resident on a standard EPROM, it is quite
+possible to copy it using an EPROM reader/burner and a blank EPROM of the same
+type. However, the astute will notice that there are *two* chips in the
+machine with little holographic stickers; the BIOS and the keyboard
+controller. I have never had occasion to try pirating BIOSs, but I doubt that
+BIOS A will work with keyboard controller B. They definitely "know" about one
+another, because when you boot a slow AMI machine, you see a serial number of
+the format <something>-<something>-K (a pause while the keyboard is accessed),
+then another digit indicating the keyboard controller version.
+
+                         -=<* General Information *>=-
+
+i. Desoldering Small IC's (Less than 40 pins)
+---------------------------------------------
+Small chips can be fairly easily desoldered by inserting a suitable lever
+under one end, applying pressure and running a hot soldering iron up and down
+the rows of pins. When one end is substantially further out than the other,
+shift your lever to the other end and rock the chip out.
+
+ii. Desoldering Large IC's (40 pins or more)
+--------------------------------------------
+This is not a task I relish, though I have had to do it a few times. I
+strongly recommend the use of an IC desoldering tool. If this is unavailable,
+then to help you rock the chip out (by the method described above), you should
+"wet" the joints with a plentiful amount of fresh solder.
+
+iii. Desoldering Surface-Mounting Resistors and Capacitors
+----------------------------------------------------------
+Unfortunately, one really needs to apply heat to both ends of these components
+simultaneously to extract them easily. However, you can try using a
+solder-sniffer to remove most of the solder, then heat up the entire component
+and flick it off the board while the solder is still liquid. Make absolutely
+sure you have the correct value of replacement component; SM resistors and
+capacitors are often unmarked.
+
+iv. Desoldering 160-pin Surface Mount IC's
+------------------------------------------
+Don't. It's impossible without a 160-arm soldering robot. If your motherboard
+has a chip like this which is damaged, replace the motherboard; it will
+probably be cheaper than trying to import a proprietary ULA from Taiwan or
+Japan. Not to mention the hours you will waste soldering all those .025" pitch
+pins, and the YEARS you will waste getting rid of the solder bridges.
+        (Note : For those who do not believe 160-pin IC's exist, please refer
+to the Acer 16MHz 80286 motherboard, component U16. This is an M1207-16, a
+160-pin surface-mounting ULA).
+
+v. Old PCB's
+------------
+Printed circuit boards which have been in service for a while are MUCH more
+susceptible to heat damage (when soldering and desoldering components) than
+more recent boards. In the case of plated-thru-hole double-sided boards
+particularly, it is extremely easy to pull the pad off the top side of the
+board when desoldering components. This necessitates much laborious flying
+lead installation and is generally a hassle ! I recently had cause to repair a
+device made in late 1979 (an old glass tty, in fact), and I would strongly
+advise staying well clear of these older devices if at all possible.
+
+** EOF **
+There has not been an error in d4wnloading and the fqle is 1^00% uncorrupt?d.
--- a/textfiles.com/computers/500mm.txt
+++ b/textfiles.com/computers/500mm.txt
@@ -0,0 +1,135 @@
+~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
+The following is an article published in "Video Computing (tm)", The
+Journal Of Interactive Video And Optical Storage Application.  Published
+by VideoSoft.  November/December 1988 issue.
+
+~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
+
+
+
+                  DISK STORAGE REACHES MOLECULAR LEVEL
+                  ~~~~ ~~~~~~~ ~~~~~~~ ~~~~~~~~~ ~~~~~
+Forget disc capacity as we know it: 550 megabytes on a CD-ROM; 108,000
+frames on a videodisc; 4 gigabytes on a 14-inch optical disc.  These will
+all become insignificant as Martin Marietta's new optical storage system
+works at a terabyte per square centimeter capacity, in half the current
+access time.
+
+OAK RIDGE, Tennessee -- Researchers at Oak Ridge National Laboratory
+(ORNL), have invented a new optical storage technology capable of turning
+a single molecule on an optical disc into a storage point.
+	ORNL, part of the Department of Energy and one of the largest
+government research laboratories, is operated by Martin Marietta Energy
+Systems.  The department has transferred the rights to Martin Marietta,
+which is now in the process of patenting and licensing the technology.
+Energy Systems has started to solicit interested companies for possible
+licensing agreements.
+	The most common methods for writing on optical discs use lasers
+to burn pits or micron-sized holes or change the polarity of individual
+data points in substrate sandwiched between two layers of polycarbonate.
+The hardware then "reads" the change in the position of the reflected
+laser's beam.  The new system uses a laser or radiation beam similar to
+current systems.  But the unique featurea of ORNL's technology is in its
+ability to go to the molecular level.
+	A VIDEO COMPUTING reporter talked with Mr. Guven Yalcintas
+(pronounced Yal*sin*tosh), Martin Marietta's licensing director.
+
+V.C.:  Currently we use lasers to burn pits or blisters into substrate.
+What are you doing that is different?
+
+Mr. Yalcintas:  We will license this technology to one of the companies,
+an American company.  We would like to protect the patentable ideas.  Our
+discussion will take place within that limit.  In today's technology,
+optical disk technology, the lasers are simply burning a hole.  Well, you
+can do that in this technology, too.  What is new is we can write to the
+media without burning the hole.  We can make changes in the molecular
+level.
+
+V.C.:  Are you referring to changes in the polarity?
+
+Mr. Yalcintas:  Yes indeed.  You can change the polarity of the molecule
+or you can identify that molecule as plus or minus, zeroes or ones
+becoming information.
+
+V.C.:  How do you read back the information?
+
+Mr. Yalcintas:  Whatever source we use to change that information at the
+molecular level is the same source that receives it back.
+
+V.C.:  We currently use lasers to do that.  Are you using a laser?
+
+Mr. Yalcintas:  Yes.  In fact, the laser we use has much lower power that
+modifies the molecule.
+
+V.C.:  Is this technology erasable?
+
+Mr. Yalcintas:  This is WORM technology.  You sensitize the substrate and
+place the information covered with the plastic coating and the
+information is going to stay there.
+
+V.C.:  Has anyone talked about the possibility of making it erasable?
+
+Mr. Yalcintas:  No.  Let me go one step back.  ORNL is a government
+laboratory.  It is operated by Martin Marietta for the Department of
+Energy. What goes on over here every day with 5,000 plus scientists is
+basic research.  The research this group of scientists is working on is
+a project to identify a trace amount of organic compounds in order to be
+able to develop a sensor, a detecting system for minute amounts of
+organic compounds.  We have developed very nice operating radiation
+detectors.  While they were working on that research, they figured out
+that they could leave information on a substrate with a laser.  The
+research was not directed at optical discs to store information as
+WORM or erasable.  One day, other research may find some easy way to
+deal with that.  Right now it's not the topic.  Right now we are
+finding out every day that WORM technology is in great demand.  The
+IRS wants WORM technology, the Navy wants WORM technology.  The nuclear
+regulatory commission wants to check data on reactors.  It doesn't want
+that data to be changed.  For one reason, there is no funding for that,
+and second, we don't believe there is any reason to erase.  With this
+volume of storage you don't need to erase, you just keep on storing.
+
+V.C.:  How much data can you store?
+
+Mr. Yalcintas:  Roughly, the size of the molecule is 10 -6E (0.000001)
+centimeters, in one square centimeter you then have 10 12E molecules.
+If each molecule is a potential storage spot for the data, then you
+have 10 12E bytes in one square centimeter (1,000,000,000,000... one
+trillion bytes per centimeter!).  If you pick up a disc with 500 million
+storage spots (present day CD-ROM), in the same size storage disc you are
+going to have probably 500 million times one million storage spots.
+That's why people are really fascinated.
+
+V.C.:  I take it that the technology is at a fundamental level of
+research.  Have you done a "blackbox" yet?
+
+Mr. Yalcintas:  No, and we are probably not going to.  This office
+receives 15 to 20 inventions per month.  We analyze them and try to
+license them.  If there is a stumbling block with industry, we can go
+out one more step to develop.  We have maturation funding we can use
+for further study, but for this project I don't believe it will be
+necessary.  When we show the data, people are fascinated.
+
+V.C.:  Have you licensed the technology yet?
+
+Mr. Yalcintas:  We have been talking to over 40 companies, 15 of which
+requested non-disclosure information.  Four of them have already signed,
+and we have released full information to them.
+
+V.C.:  What are other advantages of your new technology?
+
+Mr. Yalcintas:  You can specify what part of the information can be
+accessed for security purposes.  It can be made secure, so the
+military will be delighted.  You can identify an access frequency for
+someone and he can't read the rest of the disc.  Also, much more
+information can be entered at current optical disc speeds.  The speed
+for current optical discs is identified at somewhere near 1800 to 1900
+rpm.  I have heard of some to 3000 rpm.  Winchesters are somewhere near
+3600 rpm.  This is just a concept, it has not been tried, but we have
+reason to believe very strongly that you can apply two substrates instead
+of one.  With the same laser, or frequency, you will be receiving two
+different signals from two different substrates.  At the same speed at
+the same spot, two sets of information will be coming to you.  Two
+different molecules, with two different signals.
+
+
+Hit [ENTER] to continue
--- a/textfiles.com/computers/68040.txt
+++ b/textfiles.com/computers/68040.txt
@@ -0,0 +1,251 @@
+68040 Info:
+
+----------------------------
+This new CISC microprocessor
+offers RISC performance
+----------------------------
+ 
+Motorola has officially unwrapped its newest 32-bit
+microprocessor, the 68040. Manufactured with 0.8-micron
+high-speed CMOS technology, the 68040 packs 1.2 million
+transistors on a single silicon die. With 900,000 extra
+transistors to work with over the 300,000 transistors in a 68000
+processor, the 68040's designers added new features and boosted
+performance. New features include the following:
+
+
+ 
+-- Optimised 68030 integer unit. While retaining object-code
+compatibility with previous 68000-family processors, the IU has
+been optimised to execute instructions in fewer clock cycles
+(i.e., run faster). The claimed boost in performance is three
+times that of a 68030.
+ 
+-- Integral FPU. The 68020 and 68030 require external FPU
+coprocessor chips to handle floating-point math. The 68040,
+however, has an FPU built into it, giving it the power to do
+serious number crunching. The FPU's data types are compatible
+with the ANSI/IEEE 754 standard for binary floating-point math,
+and its instruction set is object code-compatible with Motorola's
+68881/68882 FPUs. Like the IU, the 68040's on-chip FPU has been
+optimised to execute frequently used instructions using fewer
+clock cycles. The claimed performance boost is 10 times that of a
+68882.
+ 
+-- Large caches. Processor accesses to the system bus are
+minimised by storing the most recently used set of instructions
+or data in on-chip, 4K-byte caches. Both caches operate
+independently but can be accessed at the same time. Bus snoop
+logic is used to maintain cache coherence (i.e., it ensures that
+the cache's contents match those parts of memory corresponding to
+the cache). The bus snooper's design is fine-tuned to support
+multiprocessor systems where one or more bus masters or 68040s
+might share the same section of memory.
+ 
+-- Separate memory units for instructions and data. Each memory
+unit consists of a memory management unit, a cache controller,
+and bus snoop logic. The MMUs use a subset of the 68030's MMU
+instruction set. Both memory units function independently of each
+other to improve processor throughput.
+ 
+The 68040 ships with an initial clock speed of 25MHz; higher
+speeds are to be available in the future, Motorola says. The
+68040 comes in a 179-pin grid-array package. With the elimination
+of coprocessor function lines (now that the MMU and FPU are
+consolidated onto the processor) and the addition of snoop
+control lines, the 68040 is not pin-compatible with the 68030.
+ 
+Because of the 68040's software compatibility with its
+predecessors, it can tap into the existing software base of 680x0
+applications. It does this not only while eliminating a component
+(the FPU) from a computer's design, but also while improving
+performance. In fact, the 68040 executes instructions on the
+average of nearly once per clock cycle -- the same as a RISC
+processor.
+
+ 
+Fine-Tuned for Performance
+ 
+The 68040 was built on the firm foundation of its
+predecessors. The design team used the experience garnered from
+developing earlier processors to aid in optimising the throughput
+of the 040.
+ 
+The 040 was designed from the ground up, Motorola engineers
+said. It incorporates a high degree of parallelism using a number
+of internal buses. An internal Harvard architecture gives the
+processor full access to both instructions and data. Both the IU
+and FPU have separate pipelines and can operate concurrently. For
+example, the FPU can perform floating-point instructions
+independently of the IU. Each stream (instructions or data) has
+its own dedicated cache and MU that function independently of
+each other. A smart bus controller assigns priorities to bus
+traffic to and from the caches.
+ 
+There were several key areas where Motorola was able to
+boost performance. The first was in reducing the clock cycles
+needed to execute certain instructions. The next was to ensure
+that the processor funnels instructions and data into itself
+quickly and constantly, lest it stall while waiting on
+information. The processor then gets its results back into the 
+system without interfering with incoming information. Finally, as
+if this wasn't enough, the processor stays off the system bus to
+a greater extent than is the case with other processor designs.
+This lets DMA transfers and other bus masters have use of it.
+
+
+CISC with the Speed of RISC 
+ 
+The IU was optimised so that high-usage instructions execute
+in fewer clock cycles, particularly branch instructions. Motorola
+said it performed thousands of code traces using real-world
+applications to determine which instructions were used most
+often. The IU consists of 6 stages: instruction prefetch, decode,
+effective address calculation, operand fetch, execution, and
+writeback (i.e., the result is written to either a register or to
+memory). Each stage works concurrently on the instruction
+pipeline. Dual prefetch and decode units deal with the branch
+instructions: One set processes the instruction taken on the
+branch, and another processes the instruction not taken. In this
+way, no matter what the outcome, the IU has the next instruction
+decoded and ready to go without seriously disrupting the
+pipeline. This complex design has a big pay-off: Motorola has
+determined that the average instruction takes 1.3 clock cycles to
+execute. The ability to execute an instruction once per clock
+cycle is the performance edge of RISC processors -- yet the
+68040's IU accomplishes the same goal while executing
+complex-instruction-set computer (CISC) instructions.
+ 
+The FPU adds 11 registers to the 68040 register set: Eight
+of them are 80-bit floating-point registers, and three are
+status, control, and instruction address registers. The FPU has a
+three-stage execution unit, and, like the IU, each stage operates
+concurrently. Load and store instructions (FMOVE) can be
+performed during other arithmetic operations, and a 64- by 8-bit
+hardware multiplication unit speeds many calculations. However,
+the FPU only implements a subset of the 68882 instructions
+on-chip. The transcendental (trigonometric and exponential)
+functions are emulated in software via a software trap. But
+Motorola claims that even these instructions should execute 25%
+to 100% faster on 25MHz 68040 than on a 33MHz 68882 FPU.
+
+
+Boosting Throughput
+ 
+In the area of throughput, each stream is managed by a
+separate memory unit that uses an MMU for logical-to-physical
+address translations during bus accesses. These MMUs support
+demand-paged virtual memory. Both MMUs have a four-way
+set-associative address translation cache (ATC) with 4 entries
+(versus 22 entries for the 68030). The ATCs reduce processor
+overhead by storing the most recent address translations. When an
+address translation is required, the ATC is searched, and if it
+contains the address, it is used immediately. Otherwise, a
+combination of high-speed hardware logic and microcode searches
+the translation tables located in main memory.
+ 
+Like the PU, these MMUs implement a subset of the 68030's
+MMU instruction set. Gone are the PLOAD and PMOVE instructions,
+because enhanced existing instructions made them superfluous.
+Also, only 2 memory page sizes are supported, 4K and 8K bytes,
+whereas the 68030 MMU supported 8 page sizes ranging from 256
+bytes to 32K bytes. A design tradeoff was made here: A
+performance gain was possible by supporting only the 2 most
+common page sizes. In any case, this change impacts only
+operating-system code, since MMU instructions aren't normally
+used by applications.
+ 
+The two on-chip 4K caches improve processor throughput in 2
+ways: They keep the pipelines filled and minimise system bus
+accesses. To see how this is done, you must examine the structure
+of the cache. Each is a four-way set-associative cache composed
+of 64 sets of four lines. A line consists of 4 longwords, or 16
+bytes. Cache lines are read or written rapidly using burst-mode
+access (a type of bus transfer that moves 16 bytes in a minimum
+of clock cycles). For read operations, this fills the cache
+efficiently and, at the same time, loads adjacent instructions or
+data into the cache that could be used in the near future.
+
+ 
+Zen and the Art of Cache Maintenance
+ 
+As the cache is accessed and data modified, cache-mode bits
+in the ATC determine, on a page-by-page basis, the method by
+which the information is handled. That is, the ATC entry that
+corresponds to the address in main memory whose contents were
+copied into the cache decides how the data will be updated. The
+modes are cacheable write-through, cacheable copyback,
+noncacheable, and noncacheable I/O.
+ 
+In the cacheable write-through mode, an update to the data
+cache forces a write to main memory. While this generates
+additional bus activity, this mode is required when working with
+a portion of memory that other processors share. The copyback
+mode updates the cache line but without updating main memory. The
+modified (or "dirty") cache line is copied back into main memory
+only when absolutely necessary. "Noncacheable" indicates that the
+data shouldn't be cached, which is typically the situation for
+shared data structures or for locked accesses (e.g., an operand
+access or a translation table entry update). Noncacheable I/O
+indicates that the data can't be cached and must be read or
+written in the exact order of instruction execution. This mode is
+for memory-mapped I/O devices (typically a serial device) where
+the information's order is crucial.
+ 
+The bus snooper is used in multiple bus master situations
+where a noncaching bus master, such as a DMA controller, might
+modify the memory that is mapped into the 68040's cache. The bus
+snooper monitors the external bus and updates the cache as
+required.
+
+Cache validity is handled on a line-by-line basis (i.e., a
+cache miss triggers a burst-mode access that updates 16 bytes
+either in the cache or main memory). The copyback mode minimises
+writes to main memory, and the bus controller prioritises each
+cache's external memory requests. Read requests take priority
+over writes to ensure that the pipelines remain filled.
+ 
+The caches are critical to the 040's overall throughput.
+They keep instructions and data moving into the processor while
+satisfying the apparently contradictory role of minimising system
+bus accesses. Motorola estimates that the cache hit rate is about
+93 percent for instruction and data reads and about 94 percent
+for data writes.
+ 
+
+A Processor for the 1990's
+ 
+It is perhaps appropriate that Motorola has introduced the
+68040 in the first month of the 1990s. The 040 has the power to
+tackle the jobs with large amounts of information that we will be
+dealing with regularly in the next ten or so years.
+ 
+Preliminary results have a 68040 weighing in at 20 million
+instructions per second versus the SPARC's 18 MIPS and the
+80486's 15 MIPS, all clocked at 25MHz. On floating-point
+operations, the 68040 antes up 3.5 million floating-point
+operations per second versus the SPARCS's 2.6 MFLOPS and the
+80486's 1 MFLOPS. If these numbers are accurate, then the 68040
+already out performs one RISC processor.
+ 
+But the computer industry doesn't stand still. As we move
+into the new decade, we can expect new RISC processors to once
+again take the lead in performance. Still, the 68040 shows that
+owners of CISC systems can have their cake and eat it, too. They
+don't have to forsake their software base or settle for mediocre
+performance. 
+ 
+ 
+And Motorola is already working on the 68050.
+ 
+|-THiS FiLE PASSED THR0UGH --- /\ ---.------ /\ ---*--.- FiDONET 2:200/612 --|
+|                     .  * .  // \        . // \  .      FUJiNeT 7:102/102   |
+| I.C.S Swedish HQ           //   \   +    //   \      .  MeGANeT 66:666/1   |
+|                       +   //  /  \      //     \   +    NeST 90:1101/112   |
+|  Sync World HQ           /\\  \\ /  .  //   \\ /                           |
+|                      .  // \   \/     //    /\/   .    16800 DUAL STANDARD |
+|  +46-451-91002          \\ /   /      \\  \/    +                          |
+|                      *   \\   /  + .   \\  \ .    .  .                     |
+|                        .  \\ /          \\ /                               |
+|- SysOp: Troed ------------ \/ARCASTIC -- \/XISTENCE --- CoSysOp: Zaphod B -|
+< Advertisment added using -=Bad Ad=- 1.91 by Troed/Sync. BBS: +46-451-91002 >
--- a/textfiles.com/computers/86bugs.lst
+++ b/textfiles.com/computers/86bugs.lst
@@ -0,0 +1,385 @@
+Last Change 7/17/93.  Please send updates directly to Harald.
+
+
+86BUGS.LST   revision 1.0
+By Harald Feldmann (harald.feldmann@almac.co.uk), mail address:
+Hamarsoft, p.o. box 91, 6114 ZH  Susteren, The Netherlands.
+(Please retain my name and address in the document)
+
+This file lists undocumented and buggy instructions of the Intel 80x86
+family of processors. Some of the information was obtained from the book
+"Programmer's technical reference, the processor and coprocessor; by
+Robert L. Hummel; Ziff davis press. ISBN 1-56276-016-5 Which is highly
+recommended. Note that Intel does not support the special features and
+may decide to drop opcode variants and instructions in future products.
+
+All mentioned trademarks and/or tradenames are owned by the respective
+owners and are acknowledged.
+
+Undocumented instructions and undocumented features of Intel and IIT
+processors:
+
+AAD:	    OPCODE: d5,0a     OPCODE VARIANT
+
+	    This instruction regularly performs the following action:
+		- unpacked BCD in AX	  example (AX = 0104h)
+		- AL = AH * 10d + AL		  (AL = 0eh )
+		- AH = 00			  (AH = 00h )
+
+	    The normal opcode decodes as follows: d5,0a
+	    The instruction itself is an instruction plus operand. By
+	    replacing the second byte with any number in the range 00 -
+	    ff we can build our own instruction AAD for various number
+	    systems in those ranges. For example by coding d5,10 we
+	    achieve an instruction that performs: AL = AH * 16d + AL.
+
+	    Note: the variant is not supported on all 80x86-compatible
+	    CPUs, notably the NEC V-series, because some hard-code the
+	    divisor at 0Ah
+
+AAM:	    OPCODE: d4,0a     OPCODE VARIANT
+
+	    This instruction regularly performs the following action:
+		- binary number in AL
+		- AH = AL / 10d
+		- AL = AL MOD 10d
+
+	    Thus creating an unpacked BCD in AX.
+	    The normal opcode decodes as follows: d4,0a
+	    The instruction itself is an instruction plus operand. By
+	    replacing the second byte with any number in the range 00 -
+	    ff we can build our own instruction AAM for various number
+	    systems in that range. For example by coding d4,07 we
+	    achieve an instruction that performs: AH = AL / 07d, AL = AL
+	    MOD 07d
+
+	    The AAD and AAM opcode variants have been found in Future
+	    Domain SCSI controller ROMS.
+
+
+LOADALL:    OPCODE: 0f,05 (i80286) & 0f,07 (i80386 & i80486)
+	    UNDOCUMENTED
+
+	    Load _ALL_ processor registers. Does exactly as the name
+	    suggests, separate versions for i80286 and i80386 exist. The
+	    i80286 LOADALL instruction reads a block of 102 bytes into
+	    the chip, starting at address 000800 hex. The i80286 LOADALL
+	    takes 195 clocks to execute.
+	    The sequence is as follows (Hex address, Bytes, Register):
+
+		0800: 6 N/A
+		0806: 2 MSW (Machine Status Word)
+		0808: 14 N/A
+		0816: 2 TR (Task Register)
+		0818: 2 FLAGS (Flags)
+		081a: 2 IP (Instruction Pointer)
+		081c: 2 LDT (Local Descriptor Table)
+		081e: 2 DS (Data Segment)
+		0820: 2 SS (Stack Segment)
+		0822: 2 CS (Code Segment)
+		0824: 2 ES (Extra Segment)
+		0826: 2 DI (Destination Index)
+		0828: 2 SI (Source Index)
+		082a: 2 BP (Base Pointer)
+		082c: 2 SP (Stack Pointer)
+		082e: 2 BX (BX register)
+		0830: 2 DX (DX register)
+		0832: 2 CX (CX register)
+		0834: 2 AX (AX register)
+		0836: 6 ES cache (ES descriptor _cache_)
+		083c: 6 CS cache (CS descriptor _cache_)
+		0842: 6 SS cache (SS descriptor _cache_)
+		0848: 6 DS cache (DS descriptor _cache_)
+		084e: 6 GDTR (Global Descriptor Table)
+		0854: 6 LDT cache (Local Descriptor_cache_)
+		085a: 6 IDTR (Interrupt Descriptor table)
+		0860: 6 TSS cache (Task State Segment _cache_)
+
+	    Descriptor cache entries are internal copies of the
+	    original registers (the LDT cache is normally a copy of the
+	    last regularly _loaded_ LDT). Note that after executing
+	    LOADALL, the chip will use the _cache_ registers without
+	    re-checking the caches against the regular registers. That
+	    means that cache and register do not have to be the same.
+	    Caches are updated when the original register is loaded
+	    again. Both will then contain the same value.
+
+	    Descriptor caches layout:
+	    3 bytes	   24 bit physical address of segment
+	    1 byte	   access rights byte, mapped as access right
+			   byte in a regular descriptor. The present
+			   bit now represents a valid bit. If this bit
+			   is cleared (zero) the segment is invalid and
+			   accessing it will trigger exception 0dh. The
+			   DPL (Descriptor Privilege Level) fields of
+			   the CS and SS descriptor caches determine
+			   the CPL (Current Privilege Level).
+	    2 bytes	   16 bit segment limit.
+	    This layout is the same for the GDTR and IDTR registers,
+	    except that the access rights byte must be zero.
+
+
+	    i80386 LOADALL:
+	    The i80386 variant loads 204 (dec) bytes from the address at
+	    ES:EDI and resumes execution in the specified state.
+	    No timing information available.
+
+	    relative offset: Bytes:   Registers:
+		0000:	     4	      CR0
+		0004:	     4	      EFLAGS
+		0008:	     4	      EIP
+		000c:	     4	      EDI
+		0010:	     4	      ESI
+		0014:	     4	      EBP
+		0018:	     4	      ESP
+		001c:	     4	      EBX
+		0020:	     4	      EDX
+		0024:	     4	      ECX
+		0028:	     4	      EAX
+		002c:	     4	      DR6
+		0030:	     4	      DR7
+		0034:	     4	      TR
+		0038:	     4	      LDT
+		003c:	     4	      GS (zero extended)
+		0040:	     4	      FS (zero extended)
+		0044:	     4	      DS (zero extended)
+		0048:	     4	      SS (zero extended)
+		004c:	     4	      CS (zero extended)
+		0050:	     4	      ES (zero extended)
+		0054:	    12	      TSS descriptor cache
+		0060:	    12	      IDT descriptor cache
+		006c:	    12	      GDT descriptor cache
+		0078:	    12	      LDT descriptor cache
+		0084:	    12	      GS descriptor cache
+		0090:	    12	      FS descriptor cache
+		009c:	    12	      DS descriptor cache
+		00a8:	    12	      SS descriptor cache
+		00b4:	    12	      CS descriptor cache
+		00c0:	    12	      ES descriptor cache
+
+	    Descriptor caches layout:
+	    1 byte	   zero
+	    1 byte	   access rights byte, same as i80286
+	    2 bytes	   zero
+	    4 bytes	   32 bit physical base address of segment
+	    4 bytes	   32 bit segment limit
+
+
+UNKNOWN:    OPCODE: 0f,04     UNDOCUMENTED
+
+	    This instruction is likely to be an alias for the LOADALL on
+	    the i80286. It is not documented and is even marked as
+	    unused in the 'Programmer's technical reference'. Still it
+	    executes on the i80286. >> info wanted <<
+
+
+SETALC:     OPCODE: d6	      UNDOCUMENTED
+
+	    This instruction copies the Carry Flag to the AL register.
+	    In case of a CY, AL becomes ffh. When the Carry Flag is
+	    cleared, AL becomes 00.
+
+
+Floating Point special instructions:
+
+FMUL4X4:    OPCODE: db,f1     IIT ONLY
+
+	    This instruction is available only on the IIT (Integrated
+	    Information Technology Inc.) math processors.
+	    Takes 242 clocks.
+	    The instruction performs a 4x4 matrix multiply in one
+	    instruction using four banks of 8 floating point registers.
+	    The operands must be loaded to a specific bank in a specific
+	    order. The equation solved can be represented by:
+
+	    Xn = (A00 * Xo) + (A01 * Xo) + (A02 * Xo) + (A03 * Xo)
+	    Yn = (A10 * Yo) + (A11 * Yo) + (A12 * Yo) + (A13 * Yo)
+	    Zn = (A20 * Zo) + (A21 * Zo) + (A22 * Zo) + (A23 * Zo)
+	    Vn = (A30 * Vo) + (A31 * Vo) + (A32 * Vo) + (A33 * Vo)
+
+	    Where Xo stands for the original X value and Xn for the
+	    result. Operands must be loaded to the following registers
+	    in the specified banks in the specified order.
+
+		   Before FMUL4X4		 After FMUL4X4
+
+			    bank	       bank
+	    Register:	0    1	  2		 0
+
+		ST(0)  Xo   A33  A31		Xn
+		ST(1)  Yo   A23  A21		Yn
+		ST(2)  Zo   A13  A11		Zn
+		ST(3)  Vo   A03  A01		Vn
+		ST(4)	    A32  A30		 ?
+		ST(5)	    A22  A20		 ?
+		ST(6)	    A12  A10		 ?
+		ST(7)	    A02  A00		 ?
+
+
+
+	    All four banks can be selected by using the bankswitching
+	    instructions, but only bank 0, 1 and 2 make sense since bank
+	    3 is an internal scratchpad. The separate banks can contain
+	    8 floating points and may be re-used with normal
+	    instructions. Each bank acts like an independent i80287,
+	    except when bankswitched inbetween, in those cases where the
+	    initial status is not maintained;
+
+	    Pseudo- multichip operation can be performed in each bank
+	    and even in multiple banks at the same time (although only
+	    one instruction will operate on one register at any given
+	    time), provided that the active register and top register
+	    are not changed after switching from bank to bank.
+
+
+	    EXAMPLE:
+		FINIT			     ; reset control word
+		FSBP1			     ; select bank 1
+		FLD DWORD PTR es:[si]	     ; first original
+		FLD DWORD PTR es:[si+4]      ; second original
+		FLD DWORD PTR es:[si+8]      ; third original
+		FSTCW WORD PTR [bx]	     ; save FPU control status
+		FSBP2			     ; NOTE ! you will see three
+					       active registers in this
+					       bank when using a
+					       debugger
+		FINIT			     ; nothing visible
+		FLD DWORD PTR [si]	     ; new value
+		FLD DWORD PTR [si+4]	     ; second new value
+		FADD ST,ST(1)		     ; two values visible
+		FSTP DWORD PTR [si+8]	     ; one value visible
+		FSBP1			     ; one original visible
+		FLDCW WORD PTR [bx]	     ; restore FPU status to the
+					       one active in bank 1,
+					       causing original three
+					       values to be visible
+					       again in correct
+					       sequence
+
+		... simply continue with what you wanted to do with
+		those numbers from es:[si], they are still there.
+
+		FLD DWORD PTR [si+8]	     ; for instance...
+
+
+	    This feature of the IIT chips can be used to perform complex
+	    operations in registers with many components remaining the
+	    same for a large dataset, only saving intermediary results
+	    to ONE memory location, bankswitching to the next series of
+	    operands, loading that ONE operand and continuing the
+	    calculation with the next set of operands already in that
+	    bank. This does require another read into the new bank but
+	    may save time and memoryspace compared to memory based
+	    operands or multiple pass algorithms with multiple arrays of
+	    intermediary results.
+
+
+
+BANKSWITCH INSTRUCTIONS:
+
+FSBP0:	    OPCODE: db,e8     IIT ONLY
+	    Selects the original bank. (default) (6 clocks)
+
+
+FSBP1:	    OPCODE: db,eb     IIT ONLY
+
+	    Selects bank 1 from FMUL4X4 instruction diagram (6 clocks)
+
+
+FSBP2:	    OPCODE: db,ea     IIT ONLY
+
+	    Selects bank 2 from FMUL4X4 instruction diagram (6 clocks)
+
+FSBP3:	    OPCODE: db,e9     IIT ONLY	 UNDOCUMENTED
+	    Selects the scratchpad bank3 used by the FMUL4X4 internally.
+	    Not very useful but funny to look at... How-to: load
+	    any value into bank 0,1 or 2 until you have a full 8
+	    registers, then execute this bankswitch. Using a
+	    debugger like CodeView you are now able to inspect the
+	    bank3 registers. (most likely to take 6 clocks)
+
+
+
+TRIGONIOMETRIC FUNCTIONS:
+
+	    Apparently the IIT 2c87 recognises and executes some
+	    i80387 trigoniometric functions. UNDOCUMENTED
+	    FSIN (sine) and FCOS (cosine) have been tested and function
+	    according to the Intel 80387 specifications. FSINCOS
+	    (available on the Intel 80287XL, 80387 and up) does not
+	    work.
+
+FSIN:	    OPCODE: d9,fe     IIT 2c87+ (also Intel 80387+) UNDOCUMENTED
+	    Calculates the sine of the input in radians in ST(0). After
+	    calculation, ST(0) contains the sine. Takes approximately
+	    120 clocks.
+
+FCOS:	    OPCODE: d9,ff     IIT 2c87+ (also Intel 80387+) UNDOCUMENTED
+	    Calculates the cosine of the input in radians in ST(0).
+	    After calculation, ST(0) contains the cosine. Takes
+	    approximately 120 clocks.
+
+
+... CUT HERE FOR FIRST REVISION, next part is to be revised ...
+
+
+
+Instructions by mnemonic mnemonic:
+opcode: processor:  remark & remedy:
+
+AAA	       i80286 & i80386 & i80486
+
+CMPS			i80286
+CMPXCHG 		i80486
+FINIT
+FSTSW
+FSTCW
+
+
+INS			i80286 &
+			i80386 &
+			i80486
+
+INVD			i80486
+
+
+
+MOV to SS	 n/a	early 8088  Some early 8088 would not properly
+				    disable interrupts after a move to
+				    the SS register. Workaround would
+				    be to explicitly clear the
+				    interrupts, update SS and SP and
+				    then re-enable the interrupts.
+				    Typically this would occur in a
+				    situation where one would relocate
+				    a stack in memory, more than 64Kb
+				    from the original one, updating
+				    both SS and SP like in:
+				      MOV SS,AX  ; would disable
+						   interrupts
+						   automatically during
+						   this and next
+						   instruction.
+				      MOV SP,DX  ; interrupts disabled
+				      ...	 ; interrupts enabled.
+
+
+multiple prefixes
+with REPx		8088 & 8086 They would not properly restart at
+				    the first prefix byte after an
+				    interrupt. when more than one
+				    prefix is used. e.g. LOCK REP MOVSW
+				    CS:[bx]. A workaround is to test
+				    after the instruction for CX==0,
+				    here: LOCK REP MOVSW CS:[BX] OR
+				    CX,CX JNZ here because of the CS
+				    override, the REP and LOCK prefixes
+				    would not be recognised to be part
+				    of the instruction and the REP MOVSW
+				    would be aborted. This also seems to
+				    be the case for a REP MOVSW CS:[BX]
+				    Note that this also implies that
+				    REPZ, REPNZ are affected in SCASW
+				    for instance.
+
+														
--- a/textfiles.com/computers/87.set
+++ b/textfiles.com/computers/87.set
@@ -0,0 +1,322 @@
+References to the various Central Processing Units (CPUs) as the "86"
+refers to either the 8088, 8086, 80186, 80286, etc.  References to
+the various coprocessors as the "87" refers to either the 8087, the 287,
+the 387, or the special IIT-2C87 processor.
+
+The 8087 and 287 Coprocessors
+
+All IBM-PC's, and most clones, contain a socket for a floating
+point coprocessor.  If you shell out between $80 and $300, and
+plug the appropriate chip into that socket, then a host of
+floating point instructions is added to the assembly language
+instruction set.
+
+The original IBM-PC, and the XT, accept the original floating
+point chip, the 8087.  The AT accepts a later update, the 287.
+From a programming standpoint, the two chips are nearly
+identical: the 287 adds the instructions FSETPM and FSTSW AX, and
+ignores the instructions FENI and FDISI.  There is, however, a
+rather nasty design flaw in the 8087, that was corrected in the
+287.
+
+To understand the flaw, you must understand how the 86 and 87
+work as coprocessors. Whenever the 86 sees a floating point
+instruction, it communicates the instruction, and any associated
+memory operands, to the 87.  Then the 86 goes on to its next
+instruction, operating in parallel with the 87.  That's OK, so
+long as the following instructions don't do one of the following:
+
+  1. Execute another floating point instruction; or
+
+  2. Try to read the results of the still-executing floating
+     point instruction.
+
+If they do, then you must provide an instruction called WAIT (or
+synonymously FWAIT), which halts the 86 until the 87 is finished.
+For almost all floating point instructions, it should not be
+necessary to provide an explicit FWAIT; the 86 ought to know that
+it should wait.  For the 8087, it IS necessary to give an
+explicit FWAIT before each floating point instruction: that is
+the flaw.
+
+Because of the flaw, all assemblers supporting the 8087 will
+silently insert an FWAIT code (hex 9B) before all 87
+instructions, except those few (the FN instructions other than
+FNOP) not requiring the FWAIT.  
+
+* Microsoft recognizes the new 287 instructions, if and only if
+  it sees the .287 directive. In general, don't attempt to police
+  your instruction usage-- if you use an instruction available on a
+  limited number of processors, I trust that you are programming
+  for one of those processors.
+
+In summary, if your program will be running only on machines with
+a 287, you can give ".287" directive. Your programs will be
+significantly shorter than if they were assembled by Microsoft.
+If you want your programs to run on all machines containing a
+floating point chip, you should refrain from specifying .287.
+
+WARNING: The most common mistake 87 programmers make is to try to
+read the results of an 87 operation in 86 memory, before the
+results are ready.  At least on my AT, the system often crashes
+when you do this!  If your program runs correctly when single
+stepped, but crashes when set loose, then chances are you need an
+extra explicit FWAIT somewhere.
+
+
+Emulating the 8087 by Software
+
+There is a software package provided with many compilers
+(Borland's Turbo C and most Microsoft compilers, for example)
+that emulates the 8087 instruction set.  The emulator is very
+cleverly implemented so that the programmer need not know whether
+a floating point chip will be available, or whether emulation
+will be necessary.  This is done by having the linker replace all
+floating point machine instructions with INT calls to certain
+interrupts, dedicated to emulation.  The interrupt handlers
+interpret the operands to the instructions, and emulate the 8087.
+
+The Floating Point Stack
+
+The 87 has its own register set, of 8 floating point numbers
+occupying 10 bytes each, plus 14 bytes of status and control
+information.  Many of the 87's instructions cause the numbers to
+act like a stack, much like a Hewlett-Packard calculator.  For
+this reason, the numbers are called the floating point stack.
+
+The standard name for the top element of the floating point stack
+is either ST or ST(0); the others are named ST(1) through ST(7).
+Thus, for example, the instruction to add stack element number 3
+into the top stack element is usually coded FADD ST,ST(3).
+
+
+Floating Point Initializations
+
+In general, you use the 87 by loading numbers from 86 memory to
+the 87 stack (using FLD instructions), calculating on the 87
+stack, and storing the results back to 86 memory (using FST and
+FSTP instructions).  There are seven constant numbers built into
+the 87 instruction set: zero, one, Pi, and four logarithmic
+conversion constants.  These can be loaded using the FLD0, FLD1,
+FLDPI, FLDL2T, FLDL2E, FLDLG2, and FLDLN2 instructions.  All
+other constants must be declared in, then loaded from, 86 memory.
+Integer constant words and doublewords can be loaded via FILD.
+Non-integer constant doubleword, quadwords, and ten-byte numbers
+can be loaded via FLD.
+
+
+Floating Point Operand Types
+
+The list of floating point instructions contains a variety of
+operand types.  Here is a brief explanation of those types:
+
+0        stands for the top element of the floating point stack.
+         A synonym for 0 is ST or ST(0).
+
+i        stands for element number i of the floating point stack.
+         i can range from 0 through 7.  A synonym for i is ST(i).
+
+mem10r   is a 10-byte memory quantity (typically declared with a
+         DT directive) containing a full precision floating point
+         number. Intel recommends that you NOT store your numbers
+         in full precision; that you use the following double
+         precision format instead.  Full precision numbers are
+         intended for storage of intermediate results (on the
+         stack); they exist to insure maximum accuracy for
+         calculations on double precision numbers, which is the
+         official external format of 87 numbers.
+
+mem8r    is an 8-byte memory quantity (typically declared with a
+         DQ directive) containing a double precision floating
+         point number.  This is the best format for floating
+         point numbers on the 87.  The 87 takes the same amount
+         of time on double precision calculations as it does on
+         single precision.  The only extra time is the memory
+         access of 4 more bytes; negligible in comparison to the
+         calculation time.
+
+mem4r    is a 4-byte quantity (typically defined with a DD
+         directive) containing a single precision floating point
+         number.
+
+mem10d   is a 10-byte quantity (also defined via DT) containing a
+         special Binary Coded Decimal format recognized by the
+         FBLD and FBSTP instructions.  This format is useful for
+         input and output of floating point numbers.
+
+mem4i    is a 4-byte quantity representing a signed integer in
+         two's-complement notation.
+
+mem2i    is a 2-byte quantity representing a signed integer in
+         two's-complement notation.
+
+mem14    and mem94 are 14- and 94-byte buffers containing the 87
+         machine state.
+
+The 87 Instruction Set
+
+Following is the 87 instruction set.  The "w" in the opcode field
+is the FWAIT opcode, hex 9B, which is suppressed if .287 is
+selected.  Again, "0", "1", and "i" stand for the associated
+floating point stack registers, not constant numbers!  Constant
+numbers in the descriptions are given with decimal points: 0.0,
+1.0, 2.0, 10.0.
+
+
+    Opcode    Instruction     Description
+
+ w  D9 F0     F2XM1           0 := (2.0 ** 0) - 1.0
+ w  DB F1     F4X4            IIT only: 4 by 4 matrix multiply
+ w  D9 E1     FABS            0 := |0|
+ w  DE C1     FADD            1 := 1 + 0, pop
+ w  D8 C0+i   FADD i          0 := i + 0
+ w  DC C0+i   FADD i,0        i := i + 0
+ w  D8 C0+i   FADD 0,i        0 := i + 0
+ w  D8 /0     FADD mem4r      0 := 0 + mem4r
+ w  DC /0     FADD mem8r      0 := 0 + mem8r
+ w  DE C0+i   FADDP i,0       i := i + 0, pop
+ w  DB E8     FBANK 0         IIT only: set bank pointer to default
+ w  DB EB     FBANK 1         IIT only: set bank pointer to bank 1
+ w  DB EA     FBANK 2         IIT only: set bank pointer to bank 2
+ w  DF /4     FBLD mem10d     push, 0 := mem10d
+ w  DF /6     FBSTP mem10d    mem10d := 0, pop
+ w  D9 E0     FCHS            0 := -0
+9B  DB E2     FCLEX           clear exceptions
+ w  D8 D1     FCOM            compare 0 - 1
+ w  D8 D0+i   FCOM 0,i        compare 0 - i
+ w  D8 D0+i   FCOM i          compare 0 - i
+ w  D8 /2     FCOM mem4r      compare 0 - mem4r
+ w  DC /2     FCOM mem8r      compare 0 - mem8r
+ w  D8 D9     FCOMP           compare 0 - 1, pop
+ w  D8 D8+i   FCOMP 0,i       compare 0 - i, pop
+ w  D8 D8+i   FCOMP i         compare 0 - i, pop
+ w  D8 /3     FCOMP mem4r     compare 0 - mem4r, pop
+ w  DC /3     FCOMP mem8r     compare 0 - mem8r, pop
+ w  DE D9     FCOMPP          compare 0 - 1, pop both
+ w  D9 FF     FCOS            387 only: push, 1/0 := cosine(old 0)
+ w  D9 F6     FDECSTP         decrement stack pointer
+ w  DB E1     FDISI           disable interrupts (.287 ignore)
+ w  DE F9     FDIV            1 := 1 / 0, pop
+ w  D8 F0+i   FDIV i          0 := 0 / i
+ w  DC F8+i   FDIV i,0        i := i / 0
+ w  D8 F0+i   FDIV 0,i        0 := 0 / i
+ w  D8 /6     FDIV mem4r      0 := 0 / mem4r
+ w  DC /6     FDIV mem8r      0 := 0 / mem8r
+ w  DE F8+i   FDIVP i,0       i := i / 0, pop
+ w  DE F1     FDIVR           1 := 0 / 1, pop
+ w  D8 F8+i   FDIVR i         0 := i / 0
+ w  DC F0+i   FDIVR i,0       i := 0 / i
+ w  D8 F8+i   FDIVR 0,i       0 := i / 0
+ w  D8 /7     FDIVR mem4r     0 := mem4r / 0
+ w  DC /7     FDIVR mem8r     0 := mem8r / 0
+ w  DE F0+i   FDIVRP i,0      i := 0 / i, pop
+ w  DB E0     FENI            enable interrupts (.287 ignore)
+ w  DD C0+i   FFREE i         empty i
+ w  DE /0     FIADD mem2i     0 := 0 + mem4i
+ w  DA /0     FIADD mem4i     0 := 0 + mem2i
+ w  DE /2     FICOM mem2i     compare 0 - mem2i
+ w  DA /2     FICOM mem4i     compare 0 - mem4i
+ w  DE /3     FICOMP mem2i    compare 0 - mem2i, pop
+ w  DA /3     FICOMP mem4i    compare 0 - mem4i, pop
+ w  DE /6     FIDIV mem2i     0 := 0 / mem2i
+ w  DA /6     FIDIV mem4i     0 := 0 / mem4i
+ w  DE /7     FIDIVR mem2i    0 := mem2i / 0
+ w  DA /7     FIDIVR mem4i    0 := mem4i / 0
+ w  DF /0     FILD mem2i      push, 0 := mem2i
+ w  DB /0     FILD mem4i      push, 0 := mem4i
+ w  DF /5     FILD mem8i      push, 0 := mem8i
+ w  DE /1     FIMUL mem2i     0 := 0 * mem2i
+ w  DA /1     FIMUL mem4i     0 := 0 * mem4i
+ w  D9 F7     FINCSTP         increment stack pointer
+9B  DB E3     FINIT           initialize 87
+ w  DF /2     FIST mem2i      mem2i := 0
+ w  DB /2     FIST mem4i      mem4i := 0
+ w  DF /3     FISTP mem2i     mem2i := 0, pop
+ w  DB /3     FISTP mem4i     mem4i := 0, pop
+ w  DF /7     FISTP mem8i     mem8i := 0, pop
+ w  DE /4     FISUB mem2i     0 := 0 - mem2i
+ w  DA /4     FISUB mem4i     0 := 0 - mem4i
+ w  DE /5     FISUBR mem2i    0 := mem2i - 0
+ w  DA /5     FISUBR mem4i    0 := mem4i - 0
+ w  D9 C0+i   FLD i           push, 0 := old i
+ w  DB /5     FLD mem10r      push, 0 := mem10r
+ w  D9 /0     FLD mem4r       push, 0 := mem4r
+ w  DD /0     FLD mem8r       push, 0 := mem8r
+ w  D9 E8     FLD1            push, 0 := 1.0
+ w  D9 /5     FLDCW mem2i     control word := mem2i
+ w  D9 /4     FLDENV mem14    environment := mem14
+ w  D9 EA     FLDL2E          push, 0 := log base 2.0 of e
+ w  D9 E9     FLDL2T          push, 0 := log base 2.0 of 10.0
+ w  D9 EC     FLDLG2          push, 0 := log base 10.0 of 2.0
+ w  D9 ED     FLDLN2          push, 0 := log base e of 2.0
+ w  D9 EB     FLDPI           push, 0 := Pi
+ w  D9 EE     FLDZ            push, 0 := +0.0
+ w  DE C9     FMUL            1 := 1 * 0, pop
+ w  D8 C8+i   FMUL i          0 := 0 * i
+ w  DC C8+i   FMUL i,0        i := i * 0
+ w  D8 C8+i   FMUL 0,i        0 := 0 * i
+ w  D8 /1     FMUL mem4r      0 := 0 * mem4r
+ w  DC /1     FMUL mem8r      0 := 0 * mem8r
+ w  DE C8+i   FMULP i,0       i := i * 0, pop
+    DB E2     FNCLEX          nowait clear exceptions
+    DB E1     FNDISI          disable interrupts (.287 ignore)
+    DB E0     FNENI           enable interrupts (.287 ignore)
+    DB E3     FNINIT          nowait initialize 87
+ w  D9 D0     FNOP            no operation
+    DD /6     FNSAVE mem94    mem94 := 87 state
+    D9 /7     FNSTCW mem2i    mem2i := control word
+    D9 /6     FNSTENV mem14   mem14 := environment
+    DF E0     FNSTSW AX       AX := status word
+    DD /7     FNSTSW mem2i    mem2i := status word
+ w  D9 F3     FPATAN          0 := arctan(1/0), pop
+ w  D9 F8     FPREM           0 := REPEAT(0 - 1)
+ w  D9 F5     FPREM1          387 only: 0 := REPEAT(0 - 1) IEEE compat.
+ w  D9 F2     FPTAN           push, 1/0 := tan(old 0)
+ w  D9 FC     FRNDINT         0 := round(0)
+ w  DD /4     FRSTOR mem94    87 state := mem94
+ w  DD /6     FSAVE mem94     mem94 := 87 state
+ w  D9 FD     FSCALE          0 := 0 * 2.0 ** 1
+9B  DB E4     FSETPM          set protection mode
+ w  D9 FE     FSIN            387 only: push, 1/0 := sine(old 0)
+ w  D9 FB     FSINCOS         387 only: push, 1 := sine, 0 := cos(old 0)
+ w  D9 FA     FSQRT           0 := square root of 0
+ w  DD D0+i   FST i           i := 0
+ w  D9 /2     FST mem4r       mem4r := 0
+ w  DD /2     FST mem8r       mem8r := 0
+ w  D9 /7     FSTCW mem2i     mem2i := control word
+ w  D9 /6     FSTENV mem14    mem14 := environment
+ w  DD D8+i   FSTP i          i := 0, pop
+ w  DB /7     FSTP mem10r     mem10r := 0, pop
+ w  D9 /3     FSTP mem4r      mem4r := 0, pop
+ w  DD /3     FSTP mem8r      mem8r := 0, pop
+ w  DF E0     FSTSW AX        AX := status word
+ w  DD /7     FSTSW mem2i     mem2i := status word
+ w  DE E9     FSUB            1 := 1 - 0, pop
+ w  D8 E0+i   FSUB i          0 := 0 - i
+ w  DC E8+i   FSUB i,0        i := i - 0
+ w  D8 E0+i   FSUB 0,i        0 := 0 - i
+ w  D8 /4     FSUB mem4r      0 := 0 - mem4r
+ w  DC /4     FSUB mem8r      0 := 0 - mem8r
+ w  DE E8+i   FSUBP i,0       i := i - 0, pop
+ w  DE E1     FSUBR           1 := 0 - 1, pop
+ w  D8 E8+i   FSUBR i         0 := i - 0
+ w  DC E0+i   FSUBR i,0       i := 0 - i
+ w  D8 E8+i   FSUBR 0,i       0 := i - 0
+ w  D8 /5     FSUBR mem4r     0 := mem4r - 0
+ w  DC /5     FSUBR mem8r     0 := mem8r - 0
+ w  DE E0+i   FSUBRP i,0      i := 0 - i, pop
+ w  D9 E4     FTST            compare 0 - 0.0
+ w  DD E0+i   FUCOM i         387 only: unordered compare 0 - i
+ w  DD E1     FUCOM           387 only: unordered compare 0 - 1
+ w  DD E8+i   FUCOMP i        387 only: unordered compare 0 - i, pop
+ w  DD E9     FUCOMP          387 only: unordered compare 0 - 1, pop
+ w  DA E9     FUCOMPP         387 only: unordered compare 0 - 1, pop both
+9B            FWAIT           wait for 87 ready
+ w  D9 E5     FXAM            C3 -- C0 := type of 0
+ w  D9 C9     FXCH            exchange 0 and 1
+ w  D9 C8+i   FXCH 0,i        exchange 0 and i
+ w  D9 C8+i   FXCH i          exchange 0 and i
+ w  D9 C8+i   FXCH i,0        exchange 0 and i
+ w  D9 F4     FXTRACT         push, 1 := expo, 0 := sig
+ w  D9 F1     FYL2X           0 := 1 * log base 2.0 of 0, pop
+ w  D9 F9     FYL2XP1         0 := 1 * log base 2.0 of (0+1.0), pop
--- a/textfiles.com/computers/8bitcomp.txt
+++ b/textfiles.com/computers/8bitcomp.txt
@@ -0,0 +1,426 @@
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+
+           The Designing and Building of an 8-Bit Computer:
+                           A Personal Story
+                                   
+                         Written by Mark Balch
+                                   
+                                   
+                     Copyright 1990 by Mark Balch,
+                         All Rights Reserved.
+
+
+
+
+     You may freely copy and distribute this text file provided that:
+it is not sold for profit nor used in a commercial environment; that it
+is distributed in its absolutely original, unmodified form; and that it
+bears the original copyright notice seen above.
+
+
+
+
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+
+
+
+     These past few weeks have been very exciting for me because I have
+been working with and programming my first home-brew 8-bit computer. 
+This article is not, by far, the last word on building computers but is
+intended to serve as an eye-opener for those interested in the inner
+workings of computers.  I am not going to explain every facet about 8-
+bit computers because such a project could easily fill several
+reference volumes and would require the authorship of a true
+professional.  I am simply going to describe my own little creation:
+the preparation leading to its design and construction, the actual
+processes of designing and building my computer, the long process of
+finding and correcting my initial hardware problems ("bugs") and my
+current, on-going exploration of the computer's capabilities from the
+programming side of things.
+
+     I first started researching the low level intricacies of 8-bit
+computers about three years ago by reading Steve Ciarcia's monthly
+column in BYTE magazine called "The Circuit Cellar."  (I had first seen
+this column as early as 1985 when I glanced through old issues of Byte
+out of curiosity.  Unfortunately, Steve no longer writes for Byte
+magazine due to what are, in my opinion, questionable attitudes of the
+management.  But, lucky for his readers, Steve founded an excellent
+magazine along with fellow electrical engineers devoted to hardware
+"hacking" called Circuit Cellar INK.  In addition to this, beginners
+like myself and industry pro's can communicate with each other by
+calling the CCI BBS which will be mentioned later in more detail.)  In
+this monthly column, Steve would present working projects along with
+schematics and thorough explanations (schematic diagrams are the
+detailed plans or blue-prints for an electronic circuit).  These
+projects included 8-bit multi-purpose control computers called micro-
+controllers, a "smart" printer spooler, a logic IC (Integrated Circuit)
+tester and many other interesting topics.  His last three articles even
+detailed a multi-processing super computer!  I never built any of these
+projects, but each month they taught me more and more about computer
+design and gave me ideas for my own projects.
+
+     At around the same time, I purchased a book dealing with the
+Motorola 6800 microprocessor family which explained, in great detail,
+the workings of 8-bit microprocessor systems.  I also sent letters to
+semiconductor companies such as Motorola, Rockwell and Texas
+Instruments asking for information on their microprocessor, memory and
+peripheral products.  These companies were wonderful with the myriad of
+free reference manuals that they sent me.  Over a one year period of
+time, I probably mailed more than 20 letters, mostly to Motorola and a
+good deal to Texas Instruments, and in reply received at least 2
+bookshelves worth of valuable information in the form of their product
+fliers, reference manuals and application notes (application notes are
+usually sample designs incorporating a certain product for a specific
+task).  These companies were so obliging because the more engineers
+that use their semiconductor products, the more chips they sell and the
+more money they make.  Nevertheless, all of this free information
+supplied me with weeks worth of reading material from which I learned a
+great deal.
+
+     About a year later, I decided to design a robot based on an
+article that I found in a 1986 issue of Byte.  I carefully drew the
+schematic diagrams for my simple circuit by hand on three sheets of
+graph paper.  The microprocessor that I chose for the robot was the
+6808 which I had learned about from that book.  Anyway, this was my
+first attempt and to say "things got messed up" is an understatement. 
+I ordered parts, some expensive pieces of equipment to "burn" EPROM
+chips (more on this later) and realized that I didn't know how to
+begin.  Worse yet, the science fair was about a month away.  The
+details are very cloudy in my head for some reason, probably because I
+had no idea about what I was doing.  The project was scrapped and I
+think I continued to read more about electronics.
+
+     The year after (two years ago) I decided to go ahead and build a
+normal computer board, no wheels and no robot.  I was able to get my
+parents to buy me an expensive schematic drawing program called Schema
+for my IBM clone computer to enable me to draw better diagrams.  I
+designed the computer around the 6808 microprocessor (MPU) again and
+ordered some parts.  But wouldn't ya know it...my social life got in
+the way when I joined my school's production of the musical Cabaret.  I
+didn't start building the project till February 1st and with the
+science fair a month away things went hay wire.  I cut corners to build
+it quickly and made a mess for the second year in a row.  Thinking back
+on that project, the design was a pretty good one with only a few
+flaws.  Had I given myself enough time I might have gotten it to work,
+but who knows.
+
+     Okay.  I had enough.  This was crazy.  I made up my mind to build
+a computer, and really build one this time.  Summer vacation was over
+and school had started.  (We're back in September of 1989 in case you
+lost track of my excellent time-keeping!)  I went back to my computer
+and spent some time with Schema.  What a terrific program: expensive
+but definitely worth ever penny to an electrical engineer.  I came up
+with a straight forward design for an 8-bit computer.  It was again
+built around the 1 MHz 6808 MPU and was to have an expansion bus
+capable of addressing 32K of off-board input/output or memory, 2K or
+RAM, 8K of EPROM, an LCD, a serial port capable of operation up to
+19.2K baud, 8 LEDs, 4 push buttons and an 8 position DIP switch.
+
+     Now let me do some explaining in case some of the above terms
+aren't too clear to you.  The 6808 that I used has an operating or
+clock frequency of 1 megahertz (MHz).  All computers have a certain
+clock frequency which dictates how fast instructions are fetched from
+memory and executed.  Everything that the MPU does is synchronized by a
+constant pulse train called the clock.  A 1 megahertz clock speed means
+that the MPU receives 1 million clock cycles per second (mega meaning
+million and hertz meaning a cycle of repetition.  You have probably
+seen clock speeds of 10, 12, 16, 20 MHz and higher in computer
+catalogs.  Yes, a 30 MHz 80386 MPU receives 30 million clock pulses per
+second!).  Each instruction that the MPU performs is broken down into
+parts and each part is executed in one clock cycle.  Different
+instructions have different execution times.  On the 6808, the average
+instruction execution time is about 4 or 5 clock cycles, ranging from 2
+cycles all the way up to 12 cycles.  The faster the clock frequency,
+the faster an MPU can execute instructions.  Why didn't I use a 20 MHz
+clock frequency?  Well first of all, the highest possible operating
+frequency of the 6800 family is 2 MHz.  Second, the faster your MPU
+operates, the more expensive and harder to build your computer gets. 
+At 20 MHz, you need very fast memory which ain't cheap, and you have to
+be careful about other technical problems arising from radio
+interference in the computer's signal lines.
+
+     The 2K of RAM means 2 kilobytes of Random Access Memory.  Thinking
+back on things, I should have designed 8K of RAM...oh well.  Random
+Access Memory is the term given to memory that can be written to and
+read from.  RAM is known as volatile memory because it cannot retain
+its information when power is removed from the chip.  Here's something
+that most people don't realize about memory quantities:  the 2 kilobyte
+number is a round number.  The RAM chip actually has 2,048 bytes of RAM
+but 2,000 is selected because it is easier to keep track of.  If you're
+wondering why the RAM chip is made to hold 2,048 bytes (2,048 isn't
+exactly a round number), it's because computers operate on the binary,
+or base 2, number system at their lowest level.  All numbers in
+computers are powers of 2.  This is because a signal wire can either be
+ON or OFF.  So you have two possible numbers: 1 and 0.  2,048 is 2
+raised to the 11th power.  This means that 11 address signal lines
+(numbers) are needed to access all of the 2K of RAM.
+
+     The 8K of EPROM means 8 kilobytes of Erasable Programmable Read
+Only Memory.  This memory is non-volatile, meaning that it retains its
+information even while the power is off.  Under normal operation, this
+memory cannot be written to, so it is called Read Only Memory.  But as
+the name implies, under certain conditions the chip can be programmed
+and also erased.  A special device known as an EPROM programmer is
+needed to "burn" the information into the chip with high voltage
+electrical pulses.  Another device known as an EPROM eraser is needed
+to erase the information in the chip before it can be re-programmed. 
+This erasure process is accomplished by a high powered ultra-violet
+light source.  Now here's the question: why use an EPROM if you have
+RAM?  Well, the MPU by itself is a dumb piece of silicon wafer. 
+Without a program it won't do a thing so you must always have some
+program immediately available for it when the computer is powered on. 
+The EPROM retains its data almost indefinitely, so even after power has
+been turned off, it can supply the MPU with instructions as soon as the
+computer is turned on.  Okay great, but why do you have to make it
+erasable?  Once you have a perfect program developed, you don't have to
+make an erasable PROM chip, but during the initial stages of
+development, you must be able to correct your mistakes.  If the EPROM
+was not erasable, an engineer would waste dozens or even hundreds of
+PROM chips before he got his program or design correct.  And believe
+me, no matter how perfect you think your program is the first time,
+it's bound to be buggy.  As you gain experience, the number of bugs of
+course decreases, but they are always popping up when you least expect
+it.
+
+     The LCD is an acronym for Liquid Crystal Display.  You've seen
+them lots of times on calculators, watches and maybe some machines. 
+They can be used to display letters, numbers and graphics.  The one
+that I used is a 16 character display.  They're not cheap though. 
+Buying them from retailers can set you back about $30 for the one I
+used and up to $80 for a 40 character 2 line display.  The best place
+to buy them is from odd-lot clearing houses who buy over-stocked items
+from manufacturers and sell them at great prices.  I got three of them
+for $30, a pretty good deal.
+
+     The serial port is actually composed of two chips, a connector and
+some assorted electronic components.  The first chip is known as either
+a UART (Universal Asynchronus Receiver/Transmitter) or an ACIA
+(Asynchronus Communications Interface Adapter).  I prefer UART because
+it has only two syllables!  This chip is the heart of the serial port. 
+It receives data from the MPU and converts it into a serial format and
+then sends it to the second chip.  In reverse, it takes serial data
+from the other chip and converts it into 8-bit bytes for use by the
+MPU.  I used the Rockwell 6551 which is a very easy to use but complete
+chip.  Many engineers had recommended it to me.  Motorola makes the
+6850 which is also a UART, but I don't like it.  It requires an
+external clock source and is not as flexible.  Heck, they made a great
+MPU, so who am I to complain!?!  The second chip is known as a level
+converter.  Standard logic levels are from 0 to +5 volts.  This is
+known as TTL logic (TTL means Transistor-Transistor Logic.  They are
+the low level basic logic circuits from which all other circuits are
+built).  But the RS-232 serial communications standard uses -12 to +12
+volt logic levels.  Somehow, the computer industry got stuck with this
+"great" idea, so we all have to design around it.  The level converter
+simply converts the RS-232 signals to TTL logic signals and vice-versa. 
+The chip I used is the MAX232 which is a great product from Maxim
+Semiconductor.  Unlike the standard chips used for signal conversion,
+the 1488 and 1489 which require external +12 and -12 voltage sources,
+the MAX232 converts +5V to +10V and -10V without any external hardware. 
+This minimizes circuit complexity, but increases the cost a little.
+
+     If you've forgotten by now, I am explaining all of the parts of my
+computer design!  Last but certainly not least is some input/output
+(I/O) circuitry that I incorporated into my design to allow status
+signaling to the user through 8 LEDs and user input through a keyboard
+consisting of 4 buttons and 8 switches.  By the way, LED is an acronym
+for Light Emitting Diode.  These guys are available in several colors
+and they do what their name implies: light up!  All of this
+miscellaneous I/O hardware is tied together for easy communication with
+the MPU by the 6821 PIA.  This is another Motorola product designed to
+complement its 6800 family of MPUs.  PIA stands for Peripheral
+Interface Adapter.  It has 2 8 bit I/O ports and 4 controllable signal
+lines.  I connected the 8 LEDs to one port, the DIP switch to the other
+and the four buttons to the signal lines.  Once I figured out how to
+work it, the PIA performed very nicely and allowed very flexible
+control of my I/O devices.
+
+     I now take you back to the story of building the beast.  We were
+up to the point where I designed the computer with Schema.  Okay. 
+During the design process, I communicated with engineers on the CCI BBS
+and asked little questions here and there.  They offered much help and
+I soon had three nice looking pages of schematics printed out.  I was
+ready to build the computer, so I ordered all of the parts from mail-
+order houses in silicon valley.  The technique that I used is called
+wire wrapping.  There are two basic methods for prototyping circuits
+(prototyping being the first time you are building the circuit) along
+with some others: soldering and wire wrapping.  Some people like
+soldering.  Steve Ciarcia solders all of his projects, but as someone
+said on the CCI BBS, Steve was destined to be a brain surgeon.  The
+underside of his boards really look like art.  Most of us are not so
+talented and soldering can become a great mess.  Melting through
+insulation, twisting, turning, burning!  Eech.  For my previous project
+(the one that I built, but didn't work) I had called the CCI BBS and
+asked about prototyping methods.  The general consensus was to wire
+wrap.  So, I bought some tools and went ahead with it.  The wire
+wrapping part of my previous project was certainly a success.  The
+process is very easy to learn.
+
+     This year, I ordered some more wire and assorted materials
+necessary to build the project.  It was a hefty bill, but I paid some
+and my parents paid some.  I started building it, I think, in October
+or November.  In any case, I finished in a few weeks and was ready for
+the initial test by December.  Everything looked great, but I was
+scared as hell to try the thing out.  I soon got up the nerve to
+program an EPROM with a simple program and plugged it into its socket. 
+I turned the power on with a rapid heart beat and relaxed.  The damn
+thing didn't even cough!  It just sat there with the power on.  No
+smoking, no explosions, no LEDs going on, no words on the LCD.  I was
+disappointed, but did I really expect it to work?  No, I really looked
+at it as something that I couldn't possibly get to work.  I mean...me
+build a computer?  Come on, a computer is a computer, not some lego set
+or something like that.  I gave it a few more tries and still nothing
+happened.  I checked my design and everything seemed okay.  I checked
+the wiring and everything seemed okay.
+
+     Okay.  I decided to check the power rails.  I took out my multi-
+meter which I bought at Radio Shack on sale for $9.95.  A multi-meter
+is an instrument that can measure several electrical characteristics of
+wires.  The most basic multi-meter (what I had) can measure voltage and
+resistance.  I selected voltage mode and put the probes to my power
+rails.  Hey!  I found something.  The voltage read almost 0 which meant
+that either my power supply was not functioning or there was a short. 
+I checked the power supply and it was fine, so there must be a short...
+but where?  I called the CCI BBS once again and asked for some help. 
+About two weeks later, I found the short with a technique that an
+engineer had explained to me.  Okay.  I'm ready.  Again I plugged in
+the EPROM and again nothing happened.  After a few more desperate
+tries, I gave up.  It was now the beginning of January.  I decided to
+stop work until February.
+
+     About two weeks later, I logged onto the CCI BBS as I always did
+weekly and found a message waiting for me.  It was from an engineer in
+silicon valley who had started working with 8-bit MPUs when he too was
+a sophomore in high school.  I was then a Junior, but that's beside the
+point.  He gave me encouragement and some hints on how to find my
+short.  I wrote back thanking him for the encouragement but telling him
+that I found my short and that the computer still didn't work.  I was
+confident of my design because of those I had seen in Steve's column
+and in the new magazine Circuit Cellar INK.  He soon replied with some
+trouble-shooting techniques.  The first one was a simple test to
+determine if the MPU was actually executing instructions.  It consisted
+of a single jump command that keep jumping back to itself.  I tried it
+and it worked.  This was amazing.  For the first time, I actually had
+some assurance that my design had some life in it.  Knowing this, I
+decided to scrap the fancy demo program I wrote and go for a simple LED
+flasher.  I wrote the program and burned it into an EPROM.  But it
+didn't work.  This was very disappointing, but I didn't give up this
+time, because the first test had worked.
+
+     After a few hours of playing around, I found the problem!  Three
+address lines were wired backwards to the address decoder chip.  Time
+for some background: most 8 bit microprocessors can address 64
+kilobytes.  This actually equals 65,536 bytes because there are 16
+address lines.  Since the computer does not consist of one big 64K RAM
+or EPROM chip but rather several smaller (smaller in terms of the
+number of bytes they occupy in the address space) peripherals, this
+large address space must be divided.  A common denominator is 8 8K
+chunks of memory.  The top three address lines (A15 through A13) are
+connected to an address decoder which determines which memory block is
+currently active according to these three address lines.  Because we're
+working with the binary number system, three binary digits can
+represent 8 combinations.  The decoder chip, in this case a 74LS138
+decoder chip, activates one of eight enable signals depending on the
+content of the three address signals that it receives.  Now, how does
+this represent a problem to me if the three lines are wired backwards? 
+Well let's take the example that I had.  My LED flasher program needed
+to address the 6821 PIA so that it could turn the LEDs on and off. 
+This PIA is connected to the second 8K memory block enable line coming
+from the 74LS138 decoder.  To select this second memory block, the MPU
+had to place the digits 001 on the lines A15-A13.  But if the three
+address lines were wired backwards, the decoder would see 100 instead
+of 001 and would select the wrong memory chunk.  I discovered this
+problem by monitoring the decoder's memory enable lines with a logic
+probe.  The logic probe simply tells me whether the signal line is high
+(1) or low (0).  For some strange reason, the second memory block was
+never being accessed, but the fourth was.  After some thought, I
+realized that the binary number representation for 4 was the exact
+opposite for that of 2.  I ran upstairs to get my reference book and
+sure enough, the decoder was getting the signals in reverse order.
+
+     I went back upstairs and fixed the problem.  One very big
+advantage of wire wrapping is that mistakes can easily be fixed.  All I
+did was unwrap the wire from the three signal lines and I rewrapped
+them.  It took about 5 minutes to do.  I plugged the EPROM back into
+its socket and poof!  My LEDs were flashing!  True, my complicated
+computer didn't look like much more than a christmas tree, but I knew
+that it was working.  The LEDs were not flashing on their own: the MPU
+was telling them to flash.  Now this was a victory!
+
+     Once I got to this point, things started falling into place. 
+Within a week and a half I got everything working perfectly.  Sure,
+there were troubles but I got them resolved.  The only modification I
+still have to make is an enable circuit for my expansion bus.  I forgot
+to design one in and because of that the bus cannot be used.  But
+that's okay for now because I am not yet building peripheral cards for
+my computer.  I am now working on a terminal program that will enable
+me to download programs to the computer's RAM from my communications
+program on my IBM clone.  It should be working within a week.
+
+     Some miscellaneous problems that I encountered and fixed include: 
+two signals on the serial port were wired backwards, one wire on my LCD
+was broken, the expansion bus mystery mentioned above, some pull-down
+resistors that should have originally been pull-up resistors and
+connecting the LEDs to the other I/O port instead of the one it was
+originally connected to.  It was like unravelling a mystery plot,
+almost every day after I got the LEDs flashing, something new fell into
+place and started working.  From here on in, its just a matter of
+software.  The hardware is all done (whew!) and now I just have to deal
+with it from the programmer's point of view.
+
+     The programming isn't bad, but now and then you get a little bug
+that drives you crazy until its found and eliminated.  The entire
+project was and continues to be a great learning experience and usually
+alot of fun.  Maybe one day, you'll see my name on a super computer?! 
+Who knows.  I got the baby purring and from here the sky's the limit. 
+My next project is going to be a faster computer with a monitor, full
+keyboard and disk drives.  I probably won't get it right on the first
+power up, but now that I know my computer works, every other problem
+will be a minor inconvenience!
+
+X-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-X
+
+ Another file downloaded from:                               NIRVANAnet(tm)
+
+ & the Temple of the Screaming Electron   Jeff Hunter          510-935-5845
+ Rat Head                                 Ratsnatcher          510-524-3649
+ Burn This Flag                           Zardoz               408-363-9766
+ realitycheck                             Poindexter Fortran   415-567-7043
+ Lies Unlimited                           Mick Freen           415-583-4102
+
+   Specializing in conversations, obscure information, high explosives,
+       arcane knowledge, political extremism, diversive sexuality,
+       insane speculation, and wild rumours. ALL-TEXT BBS SYSTEMS.
+
+  Full access for first-time callers.  We don't want to know who you are,
+   where you live, or what your phone number is. We are not Big Brother.
+
+                          "Raw Data for Raw Nerves"
+
+X-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-X
--- a/textfiles.com/computers/8chan12b.asc
+++ b/textfiles.com/computers/8chan12b.asc
--- a/textfiles.com/computers/8meg_exp.txt
+++ b/textfiles.com/computers/8meg_exp.txt
@@ -0,0 +1,156 @@
+    Amiga 8meg ram expander  (C)1991 Silicon Synapse Electronics
+Designed by John Kamchen  Support BBS: (204) 589-1078  Wpg,MB Canada Nov.28
+
+-----------------------------------------------------------------------------
+This project is ShareWare. If you build it, and it works (why wouldn't it?)
+then passing $20 along my way would help pay for future projects as fantastic
+as this one. The address is at the end of this file.
+-----------------------------------------------------------------------------
+
+
+With memory prices dropping every day, a fully expanded Amiga looks better all
+the time. If you shop around, you can get a 1meg simm for less than $40. That
+means an 8meg system will set you back $320. Not that bad, considering 3 years
+ago that would have got you only 2 megs. But you need more than just RAM, you
+also need a RAM CARD (duhh). These days, you have a big selection to choose
+from. GVP, IVS, ICD to name a few. Some are simply RAM cards, some have an
+SCSI host as well. My GrandSlam cost $300, a Meta4 about $175, DataFlyer RAM
+about $125. Now you can build your own 8meg expander for less than $10 !
+
+If you shop around, you can get all the interface and control chips for less
+than $5 ($4.98 to be exact). The parts list shows prices from Active. Adding
+sockets and whatever jacks the price up a few bucks.
+
+Parts List:        Cost
+     U1   74ls138   .40
+U2 - U6   74ls157  2.35
+U7 - U8   74ls245  1.28
+     U9   74ls14    .35
+    U10   74hc08    .31
+    U11   74ls32    .29
+Misc:
+Decoupling caps 11 x .1uf
+
+How it works:  RAM ACCESS
+When the CPU accesses the area from $20000 to $9FFFFF, U1 decodes A21-A23 to
+provide 4 possible bank select signals. About 58ns after _AS goes low, _RAS
+will also go low. Depending on what kind of access it is (WORD BYTE READ
+WRITE) one or two _CAS lines will go low either 94ns (READ) or >100ns (WRITE)
+after _AS low. Remember that on the 68000, _UDS/_LDS go low at the same time
+as _AS for a READ, but are delayed for a WRITE. That is why they go thru the 2
+OR gates (U11). This ensures that _CASxx will fall at the right time.
+When _AS goes high at the end of the cycle, _CASxx goes high first, then _RAS.
+
+REFRSH MODE
+The DRAM memory is being used in _CAS before _RAS refresh mode. This means
+that if _CAS is brought LOW about 20ns before _RAS, the DRAM automaticly
+selects what row to refresh. Only 64k x 4, 256k x 4 and 1meg x 1/4 support
+this feature. Otherwise, there would need to be counters and stuff added,
+maybe 5 more chips. When the CPU accesses CHIP ram ($0 to $1FFFFF), Y0 of U1
+goes LOW. This is the signal that says 'Time to refresh, cuz we ain't gonna be
+needed on this cycle'. All _CASxx lines will come low 72ns after _AS LOW,
+followed by _RAS LOW 100ns after _AS LOW. So the time diff between _CAS and
+_RAS is about 28ns, within the 20ns min parameter. The chip is kept refreshed
+untill the cycle ends.
+
+CONSTRUCTION:
+This design uses D0-D15, A1-A23, R/W, _AS, _UDS and _LDS. All these signals
+can be found at the expansion port of the 500, or CPU/Zorro slots on a 2000.
+For 500 owners ,this board could also be placed under the 68000 itself,
+saving your expansion port for better things. As long as you provide a good
+power path, there should be no problems. My proto-type board with 2megs used
+around 300ma while running Memory_Doctor, and 169ma just sitting there, no
+programs running. It uses ALOT more than my GrandSlam (90ma) for refreshing,
+but I'm not using custom chips and they are. For a 500 supply, 8megs might be
+more than it can handle, so consider buying a 150-200w switching supply (any
+AT type will do since they cost half as much as a '500 specific' supply).
+
+SIMM sockets cost ALOT of bucks, so you may want to spend a $1 more and buy
+SIPP ram (with the pins). Those can fit into normal IC sockets (Just to give
+you an idea, 8megs of SIPP sockets cost $21, while 12 20pin sockets cost
+$2.50). The SIPPs will tend to sit in at an angle, so fashion some type of
+brace for them. If you use SIPP ram, the board won't fit inside a 500, but
+low-profile SIMM sockets just might.
+
+Get the exact same parts that I have in the parts list. Don't sub an HC for an
+LS. All types have been chosen for their propagation times. Best place to get
+the parts is Active Components. They are cheap, and always have good stock. I
+have heard of people being charged upto $2 a chip at some other places (Radio
+Shack, WES). Board layout isn't critical, but use some common sense, try and
+keep data and address lines together, and so forth. Wire wrapping is OK.
+
+
+ADDING RAM:
+You can use 1meg by 8 (or 9, some place charge MORE for the 8bit sipp!), or
+256k x 8/9 sipps. To use the 256k, they must have only 2 chips on them (3 if
+it is a 9bit simm). Why?  The ones with 8 or 9 chips use 256k x 1 type DRAM
+chips. Those are fine in other ram expanders but not here. They DON'T support
+_CAS before _RAS refresh. The 256k x 4 do, so that's what type you need.
+ ___________________________    ___________________________
+ | || || || || || || || || |    |--------  --------   ----|
+ | || || || || || || || || |    |--------  --------   ----|
+ uuuuuuuuuuuuuuuuuuuuuuuuuuu    uuuuuuuuuuuuuuuuuuuuuuuuuuu
+    These won't work!               These WILL work fine.
+
+AUTO-CONFIG:
+As is, the design will not configure on power up. A program called AutoAddRAM
+is used to patch the expansion into the free memory pool. If you have a hard
+drive, this can be done during the startup-sequence. For floppy users, follow
+the docs for the program. Unlike a PAL'd ram card, this one hard-wires the ram
+address area. The folowing are some examples of how to write the .arr file.
+
+200000 3ffffe 0 Little         /* 2meg, using 1meg simm, in bank 1 & 8
+400000 9ffffe 0 BigBoy         /* 6meg, using 1meg simm, bank 2,3,4,5,6 & 7
+
+200000 27fffe 0 Expansion      /* 256k, using 256k simm, bank 1 & 8
+400000 47fffe 0 Expansion      /* 256k, bank 2 & 7
+600000 67fffe 0 Expansion      /* 256k, bank 3 & 6
+800000 87fffe 0 Expansion      /* 256k, bank 4 & 5
+
+With those last 256k areas, you just added 2megs, although it's broken up into
+4 256k sections in the expansion mapped area. This is a cheaper way to get to
+2megs, since those 256k simms are CHEAP when bought used. I found that APPLE
+service centers seems to always have the right type of simm (I assume
+Apple/Mac machines use _CAS before _RAS as well).
+You can also mix and match memory sizes, 2megs using 1meg simms, and an extra
+768k using 256k simms. This list shows where your memory will show up.
+
+       Bank1/8  Bank2/7  Bank3/6  Bank4/5
+from   $200000  $400000  $600000  $800000
+256k   $27fffe  $27fffe  $67fffe  $67fffe
+1meg   $3ffffe  $5ffffe  $7ffffe  $9ffffe
+
+I provided an .iff picture of where to place the parts and all. There are
+holes here and there for decoupling caps. There are also 2 files in
+BoardMaster format, which contain the actual artwork. Those can be plotted,
+or HP LaserJet printed using BoardMaster. A good way to mount this board is
+to solder 64 wires into the board, then solder your 68000 to those (Look at
+the AtOnce). Just an idea.
+----------------------------------------------------
+Also from Silicon Synapse Electronics ShareWare Division:
+
+S.A.P.E.P.  (Simple Amiga Parallel Eprom Programmer)
+Incredible software/hardware combo. Program 2764-27128 21v/12.5v eproms thru
+the Pport. Fairly simple project shows just how versitile the Amiga's parallel
+port can be! Includes complete schematics, SAPEP program & C source.
+
+The Computer Tech Journal
+Issue #1: Audio Sampler Fundamentals (includes demo circuits)
+Issue #2: 8meg Ram for Amiga  (ignore this, new one this fall)
+Issue #3: Eprom Programmer (Look for S.A.P.E.P., software/hardware project)
+Issue #4: Proto-Board for the Amiga  (a must have for any Amiga hacker!)
+
+To get all the ShareWare/PD files listed in this file, just send $2 (US or
+CDN) and your return address to:
+
+  John Kamchen
+c/o Silicon Synapse Electronics
+41 Matheson Ave.E
+Winnipeg Manitoba Canada
+           R2W-0C1
+
+Or call Silicon Synapse Electronics BBS (204) 589-1078 12/24 24hrs
+or Fire & Brimstone BBS (204) 255-8824  12/24 24hrs Fido# 1:348:705.0
+
+J.Kamchen  Nov.27  1991  3:30pm
+-eof-
--- a/textfiles.com/computers/9600.inf
+++ b/textfiles.com/computers/9600.inf
@@ -0,0 +1,334 @@
+ 
+Not long ago, many data communicators thought that dial-up modem manufacturers
+had pushed transmission speeds to the limit with the introduction of 2400 bit
+per second (bps) modems.  Recently, however, several manufacturers have
+creatively combined  relatively mature techniques of data transmission with
+newer technology and have introduced 9600 bps modems.
+
+Unfortunately, a widely accepted standard for full duplex 9600 bps
+transmission as defined by the International Consultative Committee for
+Telegraphy and Telephony (CCITT) does not yet exist (the CCITT is currently
+considering proposals for a new 9600 bps dial-up standard).  This means that
+today's 9600 bps modems do not offer cross-manufacturer compatibility.  The
+CCITT HAS endorsed a half duplex and a full duplex 9600 bps standard, but to
+date implementations of these relatively flexible standards have been
+proprietary, i.e., even the "standardized" modems from different manufacturers
+are not compatible.
+
+All this means that modem users who want to enjoy the dream speed of 9600 bps
+must weigh the pros and cons of each 9600 bps technique before committing to a
+particular 9600 bps design.  This paper was written in an effort to provide
+typical modem users with enough technical information and insight that they
+will be able to consider the new 9600 bps modems from the position of an
+educated consumer and not have to rely on information gleaned from sales
+brochures and advertisements.  It should be noted that the author, Wes Cowell,
+is an employee of USRobotics.
+
+                              THE ROAD TO 9600
+
+High speed data communications via the dial-up phone network is limited by the
+available phone line bandwidth and by random channel impairments.  Just as the
+diameter of a pipe limits its liquid flow capacity, so does the telephone
+channel bandwidth limit its data flow capacity.
+
+The roughly 3000-Hz available in the telephone bandwidth poses few problems
+for 300 bps modems, which only use about one fifth of the bandwidth.  A full
+duplex 1200 bps modem requires about half the available bandwidth,
+transmitting simultaneously in both directions at 600 baud and using phase
+modulation to signal two data bits per baud.  "Baud rate" is actually a
+measure of signals per second.  Because each signal can represent more than
+one bit, the baud rate and bps rate of a modem are not necessarilly the same.
+In the case of 1200 bps modems, their baud rate is actually 600 (signals per
+second) and each signal represents two data bits.  By multiplying signals per
+second with the number of bits represented by each signal one determines the
+bps rate: 600 signals per second X 2 bits per signal = 1200 bps.
+
+In moving up to 2400 bps, modem designers decided not to use more bandwidth,
+but to increase speed through a new signalling scheme known as quadrature
+amplitude modulation (QAM).
+
+In QAM, each signal represents four data bits.  Both 1200 bps and 2400 bps
+modems use the same 600 baud rate, but each 1200 bps signal carries two data
+bits, while each 2400 bps signal carries four data bits:
+600 signals per second X 4 bits per signal = 2400 bps.
+
+A technique known as adaptive equalization enables 2400 bps modems to adapt to
+phone line impairments call-by-call. Essentially, if the modem is experiencing
+problems with a noisy line, it looks for a "sweet spot" in the bandwidth and
+attempts to avoid troublesome frequencies.  This technique makes 2400 bps
+modems more tolerant of line noise than their 1200 bps counterparts that use
+compromise equalization (a one-size-fits-all approach).
+
+While these advanced modulation and equalization techniques in 2400 bps modems
+provide for double the data rate of 1200 bps modems, they also result in a
+design at least four times more complex than 1200 bps modems.
+
+Which brings us to the problem of designing a 9600 bps modem.
+
+Jumping to 9600 from 2400 bps is several orders of magnitude more complicated
+than going to 2400 from 1200 bps.  Telephone network characteristics make it
+highly unlikely that success will be had in  extending the "data signal
+alphabet" (number of bits represented by each signal) beyond four bits per
+signal.
+
+Instead, modem designers must increase the bandwidth that is to carry the
+signal, and this presents a very big problem.  In fact, at speeds of 4800 bps
+(1200 signals per second), the transmit and receive channels must be expanded
+to the point where they actually begin to overlap. A  9600 bps "band"
+requires roughly 90 percent of the available bandwidth, making it impossible
+to have two-way communication without the bands interfering with each other.
+
+A helpful analogy to the problem might be to consider a two lane highway:
+traffic must flow in both directions simultaneously, but to carry more cars
+per unit of time, highway designers must either increase the number of lanes
+in each direction or widen the two lanes to accommodate driver error with a
+margin of safety.  Unfortunately, these options are not available to modem
+designers as the available bandwidth is of a fixed size.
+
+With these considerations and limitations in mind, let's examine three basic
+ways to accomplish full duplex (two-way) 9600 bps communications:  echo
+cancellation, virtual full duplex (achieved by half duplex systems), and
+asymmetrical frequency division.
+
+                              ECHO-CANCELLATION
+
+This method solves the problem of overlapping transmit and receive channels.
+Each modem's receiver must try to filter out the echo of its own transmitter
+and concentrate on the other modem's transmit signal.  This presents a
+tremendous computational problem that significantly increases the complexity
+-- and cost -- of the modem.  But it offers what other schemes don't:
+simultaneous two-way transmission of data at 9600 bps.
+
+The CCITT "V.32" recommendation for 9600 bps modems includes echo-
+cancellation.  The transmit and receive bands overlap almost completely, each
+occupying 90 percent of the available bandwidth.  Measured by computations per
+second and bits of resolution, a V.32 modem is roughly 64 times more complex
+than a 2400 bps modem.  This translates directly into added development and
+production costs which means that it will be some time before V.32 modems can
+compete in the high- volume modem market.
+
+Despite the fact that V.32 is a recognized standard, it is uneconomical and
+unnecessarily complex for personal computer datacomm applications that simply
+don't require simultaneous two-way 9600 bps transmission.
+
+                              HALF DUPLEX SYSTEMS
+                             (Virtual Full Duplex)
+
+Half duplex solutions devote the entire bandwidth to 9600 bps in one direction
+at a time, and "ping-pong" the data flow back and forth to simulate full
+duplex.  This is potentially the simplest scheme.  Its performance is
+acceptable in data transfer applications that don't involve user interaction,
+i.e. file transfers. Even so, advanced error-control protocols that require
+ACKnowledgments to be sent in response to received data blocks generate a high
+number of "line reversals" which greatly impair overall data throughput.  In
+short, the benefit of higher speed is so significantly compromised by line
+reversals in half duplex sessions that the net gain in data throughput may be
+marginal at best.
+
+If users want to operate in an interactive mode, their data must be sent to
+the remote computer, the data channel must be reversed, and then the data must
+be echoed back.  This process results in significant turn-around delays which
+can be very frustrating to users.
+
+Half duplex modems of this kind are most often based on CCITT recommendation
+V.29 for half duplex 9600 bps transmission on the dial-up network.  V.29 based
+data pumps used in facsimile systems are available as LSI chip sets, providing
+a short-cut to modem manufacturers, particularly to companies that don't
+develop their own modem technologies.  But the major problem is that the V.29
+modulation scheme has been outdated  by the fact that it operates in a half
+duplex mode and doesn't provide good signal to noise performance.  The V.32
+recommendation, which operates in a full duplex mode and employs Trellis
+Coding Modulation offers greater throughput and a greater immunity to channel
+impairments.
+
+To the best of my knowledge, modems employing V.29-based modulation include
+products from Racal-Vadic, Comspec, Develcon, Gamma Technology, Microcomm, and
+Electronic Vaults, Inc.  (EVI).  These modems, however, are NOT mutually
+signal compatible -- cross-manufacturer compatibility does not exist.
+
+Another modem in the half duplex category, but not based on V.29 modulation,
+is the Telebit Trailblazer (R), which uses a proprietary modulation method.
+
+Trailblazer is based on a multi-carrier technique.  Conceptually, the
+transmission channel is divided into many (512), independent, very narrow
+channels (think of our two-lane highway and imagine it as having 512 very
+narrow lanes (say, for bicycles) going in one direction and you've got a fair
+idea of how Trailblazer divides the bandwidth).  The main advantage is that no
+receiver adaptive equalizer is needed because each channel is very narrow
+compared to the overall channel bandwidth.
+
+Further, in the Trailblazer modulation scheme, the modulation rate in each
+narrow channel can be changed somewhat independently.  Trailblazer is
+different from many other modems in that the decision to fall back to lower
+speeds is built into the modem protocol, rather than controlled by the user's
+computer port.  It is claimed that in the face of channel impairments,
+throughput can be adapted gracefully to channel conditions.  Traditional
+modulation systems would have to fall back in larger steps.  But there are
+three inherent MAJOR problems:
+
+1)  The turn-around delay is very long compared to conventional modulation
+techniques because data must be sent in large blocks.   A typed character may
+take several seconds to be echoed back to the system that sent it.  As a
+result, the system fails to achieve the illusion of full duplex and is not
+really suited to interactive online sessions.
+
+2)  The Trailblazer receiver cannot "track" carrier "phase jitter" (phase
+jitter can be thought of in terms of "phase shift": think of how the whine of
+a race car goes from higher to lower as it passes the viewer --  the frequency
+of the sound is said to be "shifted" or "jittered").  Instead of cancelling
+out phase jitter (which is commonly encountered on long distance calls) the
+Trailblazer can only respond by lowering throughput to gain more immunity to
+phase jitter.
+
+3)  The ability to transmit at the maximum rate when subject to channel
+impairment is considerably less than for conventional modems.  There is one
+notable exception:  the multiple channel technique offers extremely good
+immunity to impulse noise because the impulse energy is distributed over
+narrow channels.  While conventional modems can achieve similar results
+through special coding or filtering techniques they rarely implement such
+methods.
+
+                       ASYMMETRICAL FREQUENCY DIVISION
+
+When one considers the nature of most PC datacomm applications, it is realized
+that most applications are interactive, involving manual (typed) data entry
+from one end and data file transmission from the other end.
+
+Few, if any, PC users can justify using an expensive 9600 bps channel to carry
+their typed characters when they realize that 300 bps translates to 360 words
+per minute.  Assuming one could type 100 words per minute, even a 100 bps
+transmission channel would be sufficient.
+
+On the other hand, file transfer should take advantage of the tremendous speed
+of the microprocessor.  Serial ports are often set at data rates in excess of
+19,000 bps.
+
+Considering these inherent characteristics, a communications scheme that
+incorporated a high speed and a low speed channel would be best suited for
+most PC datacomm applications.
+
+Remembering the highway analogy (higher speeds mean wider lanes), one can see
+how such a method would grant modem designers a  large portion of the
+available bandwidth for a 9600 bps channel and still leave enough room to
+accommodate a narrow 300 bps channel without any channel overlap.
+
+By utilizing two discreet channels, such a modem would avoid costly, complex
+echo-cancellation schemes.  And, because the channels carry data in both
+directions simultaneously, the communications link is a true full duplex
+connection.  This means that data entered at one system would be almost
+instantaneously echoed back -- eliminating the frustrating turn-around delay
+experienced in half duplex sessions.
+
+USRobotics has developed just such a modem.  It passes data in one direction
+using the V.32 modulation technique (a very robust method that is very immune
+to phone line impairments) but employs only a 300 bps channel in the opposite
+direction so that the channels do not overlap and echo-cancellation is not
+necessary.
+
+The use of the high-speed channel by the two modems is based on data demand.
+In most applications, however, "channel swapping" will not be required.  For
+interface elegance, the modems employ a 4K buffer that allow them to perform
+data rate conversion: sending and receiving speeds remain constant between the
+modem and the computer -- it is only in between the modems that transmitted
+and received data run at different speeds.
+
+For interactive sessions, users are assigned the low-speed channel while the
+data sent to them (long mail messages, menus, files, etc.) in the 9600 bps
+channel.
+
+For file transfer sessions, the data blocks that make up a file are sent in
+the 9600 bps channel while the corresponding ACKnowledgments are returned in
+the 300 bps channel.  An asymmetric frequency division scheme is ideal for
+file transfer where large data blocks (usually several hundred bytes in
+length) are transmitted in the high-speed channel and the ACKs (usually only
+a few bytes in length) are carried in the low-speed channel.
+
+If a user switches from an interactive mode to file transfer and then back to
+interactive mode, the high speed channel is dynamically and automatically
+assigned to the system with the greatest data demand.
+
+                              A BRIEF COMPARISON
+
+Three options exist for data communicators who desire to operate at 9600 bps:
+
+1)  V.32-type modems offer a full duplex connection but do so by virtue of
+echo-cancellation.  This technique is so complex, and has proven so difficult
+to employ, that the cost for such modems will remain prohibitively high and
+their implementation a delicate task for some time to come.
+
+2)  Half duplex modems (either V.29 or multi-carrier) offer 9600 bps but the
+turn-around delay inherent in half duplex links severely compromise overall
+throughput.  This degradation of throughput, however, can be more than offset
+by data compression techniques assuming the modems in question support
+identical compression protocols and are operating on relatively "clean" phone
+lines.  Both half duplex methods suffer disproportionate degradation on
+"noisy" lines: the V.29 modems must spend more and more time in line reversals
+as detected data errors increase, and the multi-carrier modems must sacrifice
+throughput to gain noise immunity.
+
+3)  Asymmetrical Frequency Division offers 9600 bps communications in a true
+full duplex implementation.  By efficiently utilizing the available bandwidth,
+these modems provide users with high speed file transfer capabilities and fast
+response in interactive sessions.  Because the transmit and receive data
+channels do not overlap, expensive echo-cancelling techniques are unnecessary
+making these modems economically efficient.
+
+                                  IN CONCLUSION
+
+Until a widely recognized standard is agreed upon by the standards community,
+and implemented by several manufacturers, modem buyers must weigh the benefits
+and detriments of each 9600 bps scheme.
+
+V.32 would be best where symmetrical, full duplex, synchronous communication
+is desired (for example, dial-up HDLC links between multiplexers) and where
+the user can modify his software to accommodate non-"AT" command-driven
+modems.
+
+V.29 modems would be likely solutions where absolute lowest price is required
+and conformance to an international standard (in a very limited sense) is
+desired.
+
+Multi-carrier transmission schemes are well-suited to applications that
+require maximum one-way throughput and where circuit conditions are known to
+be good.  This transmission method is also ideally suited for circuits where
+immunity to impulse noise is paramount.
+
+Users who most often work with one-way file transfers (PC-to-PC) or with real-
+time applications may opt for an Asymmetrical Frequency Division scheme, which
+is suited equally well for either application.  The elegant approach to the
+frequency division (avoiding overlapping bandwidths) also allows these modems
+to present a very economical ratio between dollars and bps.
+
+Potential high-speed-modem buyers should also consider the aspects of ease-of-
+use, ease-of-implementation, and downward compatibility with existing
+implemented standards (the CCITT's V.22bis for 2400 bps, Bell 212A for 1200
+bps, and Bell 103 for 200 bps).
+
+                                  POST SCRIPT
+
+Many modem users have voiced confusion and consternation about the lack of
+compatibility between modem manufacturers at speeds greater than 2400 bps.
+
+Modem manufacturers have embraced the Bell 212A and 103 standards for 1200 and
+300 bps.  In these post-divestiture days, however, Bell no longer sets modem
+standards in the U.S. and hence, U.S. modem manufacturers have turned to the
+CCITT as a definitive source for standards.  The industry-wide acceptance of
+the CCITT's V.22bis standard for 2400 bps is the best example of this shift.
+
+The CCITT recommendations V.29 and V.32 for 9600 bps have not resulted in
+compatible implementations.  It is important to remember that V.29 was
+originally developed as a four-wire full duplex leased-line modem and has
+since been adapted by various manufacturers to encompass half duplex dial up
+applications.  Other problems with V.29 are that it compromises transmission
+speed and is poor for interactive sessions.  V.32 is proving to be
+prohibitively complex and exceptionally difficult to implement (driving
+development and production costs up).
+
+Recognizing the need for an alternative to the V.32 recommendation, the CCITT
+has requested proposals from modem manufacturers.
+
+Presently, two proposals are being considered by the CCITT.  One is the multi-
+carrier scheme developed and sponsored by Telebit.  The other is an
+Asymmetrical Frequency Division scheme developed and sponsored by USRobotics.
+
+  and s
--- a/textfiles.com/computers/9600data.txt
+++ b/textfiles.com/computers/9600data.txt
@@ -0,0 +1,647 @@
+Filename: 9600DATA.TXT
+Version : 1.2b
+Updated : 1/11/1991
+-------------------------------------------------------------------------------
+
+                      A Comparison of High Speed Modems
+                   Compatibility/Features/Differences/Prices
+
+	         Including: HST, V.32, V.32bis, V.42, V.42bis
+
+
+		By Mike Ehlert, SysOp: PACIFIC COAST MICRO BBS
+                        USR HST/V.32bis (805) 494-9386
+                        USR HST 14.4k   (805) 497-3456
+			CC Speedmodem   (805) 496-7320
+                             FidoNet 1:206/2801
+-------------------------------------------------------------------------------
+
+                          TABLE OF CONTENTS    
+A High Speed Modem
+Disclaimer
+Standards
+The CCITT
+Half-Duplex Vs. Full Duplex
+What is MNP, HST, V.32, V.42 etc.
+What to look for: Throughput, Configurability, UARTS, etc.
+Some Questions to ask: If Considering a generic V.32/V.42.
+Some Questions to ask: If Considering a FAX/Modem.
+Modem Manufacturer Phone Numbers.
+Modem Compatibility Listing.
+Modem Price Comparisons.
+Document Updates.
+-------------------------------------------------------------------------------
+
+                              A High Speed Modem
+                              ==================
+
+Are you thinking of going to a High speed modem?
+
+2400 baud can be very slow for transferring large files.
+Modems advertised as 4800 are really only 2400 with data compression such
+as MNP-5 or even just software data compression. Don't be fooled.
+A 9600 or faster modem will make a tremendous difference on your transfer time.
+Most 9600 Baud users never want to go back to 2400. There is a lot of confusion
+and mis-information about 9600 Baud and faster Modems. I wrote this to help
+clarify and point out the differences between the different modems available
+for MS-DOS machines.
+
+If price is no object, the Best modem to get for BBS use is the US Robotics
+Dual Standard. It is a combination of the HST 14400 Baud modem and a
+V.32/V.42 modem all rolled into one modem.
+
+If price is an Issue, (like it is to most people) then you may want to consider
+a Standard HST 14.4k, or a different Brand if that is also too expensive.
+But if you do not buy a US Robotics Modem, you will not be able to hook up to
+a Standard USR HST 14.4k, which is the most Common BBS Modem.
+
+Other then USR, you could get a V.32 or V.32/V.42 computable modem for about 
+25% less then a Standard HST, or you could get a 9600 FAX/Modem for less then
+half the cost of a V.32  See the price comparisons at the end.
+
+-------------------------------------------------------------------------------
+ 
+                                Disclaimer
+                                ==========
+
+This information was obtained from several reputable sources, but none
+of it is guaranteed to be 100% accurate. I am not responsible for any
+incorrect information in this document, nor am I responsible for any
+loss of profits to anyone resulting from reading the information in this
+documentation. Proceed at your own risk.
+ 
+-------------------------------------------------------------------------------
+
+                           Corrections and updates
+                           =======================
+                           
+Since new modem brands, models, and new prices are appearing constantly,
+this documentation is going to need a lot of updating. Also some of the Current
+Information may need corrections as well. You are welcome to make changes to
+this information, but please send me a copy of your update so that I can add
+your changes to the current latest version I have. That way all the corrections
+that are made will be added to the latest version, which will also be avail.
+for download on my bbs. 
+
+-------------------------------------------------------------------------------
+
+                                  STANDARDS
+				  =========
+
+
+At one Time Hayes was the standard in modems. All other modems tried to be 
+"Hayes Compatible". This is still true with 1200 and 2400 bps modems,
+but NOT when it comes to 9600 or faster modems. Hayes established a Standard
+called the AT command set. Other modem manufacturers quickly adopted this
+standard and the AT commands are still used today (with a few commands added).
+
+Well Along Came USRobotics, and designed the HST, a proprietary 9600 modem
+that quickly became popular, and no one else was allowed to duplicate. 
+Hayes then also came out with a proprietary 9600 modem, but since it could not
+talk to the HST at 9600 it never became popular in the IBM world.
+Next USR improved their HST modem, making it transfer at 14400 bps without
+even using data compression. 
+USR's HST became the standard for MS-DOS computable High Speed modems.
+
+Realizing that the industry needed a "non-proprietary" 9600 standard that
+any manufacturer could use, the CCITT came up with the V.32 specification.
+It took a several years before modem manufactures started finding ways to
+implement this standard at a price competitive to HST, but a few manufactures
+started producing them, including Hayes. Next the CCITT realized that better
+error correction and data compression methods existed, and thus came up with
+the V.42 and .V42 bis standard. They are currently finalizing the V.32bis
+specification, which will also run at 14,000 Baud in full duplex.
+
+Now Modem Manufactures all seem to be jumping on the V.32 Bandwagon,
+Even USR offers V.32/V.42 modems and allows the HAT's to be upgraded to
+a "Dual-Standard" so it can be both HST and V.32/V.42 in one.
+The New Hats also have V.42bis and can be upgraded to the new V.32bis DS.
+The price Difference between the HST and the HST-DS is considerable though,
+which is why Most BBS Sysops still buy the HST without the "DS" option.
+The V.32/V.42 have become the standard in the Macintosh world, and some
+MS-DOS BBS's are now running V.32/V.42 instead of supporting the HST,
+and some are supporting both types, using multiple lines.
+
+Fax Machines have had their own standards, CCITT V.27, V.27ter, and V.29
+define the modulation scheme used for Fax, and T.30 defines a Fax Protocol. 
+Fax Machines nowadays can transfer Faxes at 4800 or 9600 Baud. Most Fax/Modems
+can only transfer files at 2400 Baud. There is now one Fax/Modem which can
+also transfer files at 9600 bps, and is far less expensive then the V.32/V.42s,
+plus offer the benefits of a Fax machine. 
+
+---------------------------------------------------------------------------
+
+                               The CCITT
+        		       =========	
+
+The International Consultive Committee for Telegraph and Telephone (CCITT)
+set the V.32, V.42, and V.42bis Standards in 9600 bps communications.
+They have also set the standards of 1200 and 2400 bps in Europe.
+Unfortunately the V.32 standard is very expensive to implement for the
+modem manufactures, and the HST has already become the industry standard
+in the IBM BBS world. But since any company may manufacture V.32/42 Modems
+without a license or royalty, there is more price-competition going on
+with these then with the HST, which currently has no true competition. 
+
+-----------------------------------------------------------------------------
+
+ 			Half Duplex Vs. Full Duplex
+                        ===========================
+
+Half-Duplex is When Data is Transited in one Direction at a time.
+Full-Duplex is both directions at once. 2400 baud modems are Full-Duplex.
+The HST Modem uses an improved form of Half-Duplex, in which one direction is
+transferring at high speed while the other direction is sending ACK/NAK signals
+at a slower speed. A similar method is used on the Speedmodem.
+
+V.32 modems use Full duplex, which in most cases does not improve performance
+when used on a BBS. There is one way to take full advantage of a Full-Duplex
+Modem: By using a protocol called Bimodem to upload and Download as the same
+time at 9600 bps in each direction! Unfortunately Bimodem has not become very
+popular. Most BBS's and users still use one direction transfer protocols such
+as Zmodem or YModem-G.
+
+-------------------------------------------------------------------------------
+
+                        What is MNP, HST, V.32, V.42?
+                        =============================
+
+                                     MNP
+					
+MNP (Microcomm Network Protocol) levels 1-4 are methods of error correction
+in which the two modems connected verify the integrity of the data transmitted.
+Error correction is required for several streaming protocols such as Ymodem-G
+in which the protocol sends a constant stream of data and lets the modems do
+the error correction. This requires a clean, noise free line as streaming
+protocols will abort if line noise interferes too much.
+These MNP Levels are used in almost all High Speed Modems Made today, But
+Just because two modems both have MNP it does not ensure that they will both
+talk to each other (at over 2400 baud).
+
+MNP Level 5 is for data compression. Since All BBS's have their files archived
+in ZIP, LZH, GIF or some such compressed format (try to ZIP a LZH file), MNP5
+can actually increase the overhead by attempting to compress the file further.
+Therefore BBS's leave MNP5 turned off, and so should the BBS callers.
+
+-------------------------------------------------------------------------------
+
+                                  HST
+
+HST stands for "High Speed Technology" - a method of communicating at high
+speeds which was developed by US Robotics in 1984. HST is a proprietary
+method so currently only US Robotics is allowed to Make HST Compatible Modems.
+The original HST modems were 9600 bps by using a 9200 bps channel in one
+direction and a 450 bps "back channel" in the other to send ACK/NAK
+signals for confirmation of data - a half duplex mode - often referred to
+as "ping-ponging". In 1989 USR improved the HST to run at 14400 bps by further
+optimizing their proprietary method. All HST's sold now include the 144k
+speed as well as the original 9600 mode. Because the HST 14.4k is a raw speed,
+It allows the HST to transfer pre compressed files such as ZIPs at faster
+speeds then any other 9600 modem: over 1700 Characters per second.
+
+The HST has become the "BBS-Standard" in high-Speed Modems. More BBS's use
+the HST then any other type of modem, including the V.32. 
+
+As of January 1st 1991 all HST modems also include the V.42/V.42bis error
+correction and data compression (not to be confused with V.32).
+
+The HST's can also be upgraded to the HST "Dual Standard" allowing it to also
+be V.32bis compatible. The price is significant for this upgrade however,
+and in very few cases is any speed gained.
+
+-------------------------------------------------------------------------------
+
+                                   V.32 
+
+V.32 is a 9600 Baud standard that was established by the CCITT back in 1984.  
+V.32 is full duplex (9600 bps in both directions at once). Normally this would
+be impossible, but using a technique called "echo cancellation", one modem
+can filter its own tones from the phone line, enabling it to pick out the
+signals from the other modem. However, echo cancellation requires that high
+speed modems include built-in digital signal processor (DSP) chips, which is
+the main reason V.32 and V.42 costs so much. 
+V.32 also includes a fall back to 4800, if line noise becomes a problem at 9600.
+The V.32 standard also provides an optional error-reduction scheme, called
+"trellis-coded modulation (TCM). TCM allows 9600 modems to check for
+transmission errors with a redundancy bit, which results in fewer errors on
+noisy lines. Most V.32's include this option, but some do not.
+
+-------------------------------------------------------------------------------
+
+                                 V.32bis
+
+It was first realized in 1989 that it is feasible to push V.32 up to 14,400
+baud, the same speed as the HST now runs. This requires even better echo
+cancelers and an overall improvement in receiver quality, so it will be 
+more costly to produce than the V.32 to produce. V.32bis has not yet officially been
+finalized CCITT, but as of January 1st US Robotics has started shipping
+a new version of their Dual Standard Modem which includes V.32bis in an early
+but functional form. USR plans to update their DS ROMS when the CCITT actually
+release the completed V.32bis specification, scheduled for mid 1991.
+It's expected that other Modem manufacturers will not be able to offer the
+V.32bis technology until the 4th quarter of 1991.
+
+-------------------------------------------------------------------------------
+
+                                   V.42
+
+V.42 is nothing to do with actual modem speed, but how the error correction
+and data compression schemes interface. When the CCITT approved V.42 in 1988,
+they decided to include two different error correction and data compression
+schemes. The first one is MNP,(short for Microcom Networking Protocol).
+MNP classes 2, 3, & 4 which handle error correction. Note that MNP-5 was not
+included in the V.42 standard because it is only used for data compression.
+MNP was made an official standard due to the large number of modems that
+currently use it. The Second method is the preferred method, known as LAP-M
+(Link Access Protocol-Modem). A modem with only MNP is called "V.42 Compatible"
+and one with LAP-M its known as "V.42 Compliant". If a V.42 Compliant connected
+to a V.42 compatible, it would first try to Handshake with LAP-M, and after it
+realized that the other modem is not Compliant, it would try the MNP Method, and
+they connect.
+
+Most V.42 modems are fully V.32 compatible, but they do NOT have to be,
+according to CCITT guidelines. So when purchasing a V.42, make sure that
+it is really a V.32 Modem that is also V.42 compliant or compatible.
+There are now some 2400 baud modems which are also V.42bis compliant,
+so since the LAP-M gives 4:1 data compression they are advertised as
+"9600 throughput", which really can be misleading and confusing.
+
+-------------------------------------------------------------------------------
+
+                                 V.42bis
+
+V.42bis is a new CCITT standard for data compression techniques, which was
+approved in late 1989. To Support V.42bis, a modem MUST support both LAP-M and
+MNP-5, unlike the Standard V.42 in which LAP-M is only an option. V.42 provides
+a maximum data compression of 4:1, giving a 9600 bps modem a throughput up to
+38400 bps. MNP only offers 2:1 Compression. Like MNP-5, LAP-M and V.42bis will
+not be effective when transferring compressed files from BBS's, such as ZIP
+files. Since V.42 is implemented in firmware, many V.42 compliant modems can
+be upgraded to V.42bis with a new ROM.
+
+-------------------------------------------------------------------------------
+
+                               Speedmodem
+
+A less expensive method of 9600 bps communication can be achieved without
+using the CCITTs method of "echo cancellation", so that the a digital signal
+processor is not needed, making the cost much less expensive.
+This method is used on the Compucom Speedmodem. The Speedmodem also uses
+Dynamic Impedance Stabilization (DIS) to increase the reliability of the
+telephone interfaces signal-to-noise ratio of the telephone line by increasing
+the clarity and power of the signal, and automatically compensating for
+impedance variations on the phone line. This reduces the probability of
+line noise, allowing the Protocols to transfer files with less overhead
+It also has a faster fall back rate of 7200 bps if too much line noise exists
+for 9600 communications. This makes the Speedmodem stand up to worse line
+noise conditions at a faster rate then V.32 can handle.
+The Speedmodem is also a 9600 bps Group III Facsimile, so with this modem,
+you can send document and scanned images as a Fax, as well as receive Faxes.
+It supports BitFAX by Bitcom and any other 3rd party FAX software which 
+uses the standard CCITT AT-FAX command set.
+A Data Compression called CSP (CompuCom Speed Protocol) is used to yield a
+compression of up to 4:1, giving a throughput of up to 38400 bps.
+This however, like MNP5 will not be effective when transferring compressed
+files from BBS's, such as ZIP files.
+
+DIS and CPS are proprietary methods owned by CompuCom, Sunnyvale, CA.
+Because this modem is inexpensive more people can afford to buy it, and since
+its both a FAX and a Modem in one, it should gain popularity quickly. 
+It is still a new product, but hundreds of BBS's are showing support for it.
+
+-----------------------------------------------------------------------------
+                               What Next?
+
+By mid 1991 the V.32bis standard will be finalized, and by that years end
+the several 14,400 Bps full duplex modems will be on the market.
+There is already talk of the CCITT releasing another standard in 1992,
+which will be for 192,000 bps. Since these modems are expected to cost
+considerably more then the V.32s currently on the market, they will be
+out of the price range of most BBS users.
+
+-----------------------------------------------------------------------------
+
+
+                           WHAT TO LOOK FOR
+
+THROUGHPUT:
+==========
+
+You'll see ads claiming that you can attain 19,200 bps or 38,400 bps
+with a 9600 Baud modem - this is true only if you are using MNP5 or other
+form of data compression on an uncompressed data or text file. Any 9600 Baud
+modem using compression will transfer at that effective rate. 
+But for BBS use, where files are already compressed (such as ZIPs, LZHs, GIFs)
+MNP5 will actually slow down throughput by attempting to compress a file that
+is already compressed. Generally when using a modem for BBS transfers, its
+the RAW speed of the Modem and not the throughput which is important.
+
+Figures of around 1700 cps by the HST modems are attained through proprietary
+methods not available on other modems.
+
+
+CONFIGURABILITY:
+================
+In High Speed Modems, there is a lot more to configure than on a 2400 Baud
+modem. Be sure your modem comes with NRAM (Non-volatile Random Access Memory)
+that can store your modem configuration, making long init strings unnecessary.
+Also many modems have dip switches to set the default configuration, which
+also simply things. If you buy an Internal Modem, be sure its fully
+Configurable as far as selecting the com port and IRQ (interrupt request)
+setting. Some modems can be addressed from Com1: up to COM8:
+
+
+UARTS
+=====
+Internal Modems have a serial port built in, and External Modems use an
+existing Serial Port in the computer. A serial port has a UART chip to buffer
+and control the Input/Output (I/O). The XT usually has an 8450 UART which will
+handle up to 9600 Baud. The AT usually has the 16450. If you have an external
+modem you should replace your UART with the 16550 (NS16550AN).
+
+
+INTERNAL or EXTERNAL
+====================
+MS-DOS Users can choose internal modems, that plug in a computers slot,
+or external, which plugs into an existing serial port with a serial cable.
+Internals are usually less expensive, take up less space, have the correct UART
+already installed (see below) and don't need a cable. But the Externals usually
+have a lot of little lights on it that you can stare at, and its easier to move
+to another machine. So which ever you prefer (or is available in some cases). 
+
+
+
+If Considering a USRobotics Modem
+=================================
+You only need to worry about weather you want the HST
+(which can be upgraded later), or the Dual Standard
+which is the same modem with the V.32bis option included.
+
+
+If Considering a V.32/V.42 Modem
+========================================
+Some questions to ask:
+
+Can you afford the USR "DS" instead?
+Is it both V.32 and V.42 compatible?
+Is it V.42 compatible, V.42 compliant, or V.42bis?
+If its not V.42bis or compliant, can it be upgraded?
+Do Local/National BBS's support it?
+Would you rather wait a year for a V.32bis?
+What is the warranty? 5 years?
+
+
+If Considering a FAX/Modem
+==============================
+some questions to ask:
+
+Is it Send and Receive Fax?
+Does it support 3rd party FAX software?
+Is it 4800 or 9600 bps?
+Does it support MNP?
+Does it support other compression?
+Do Local/National BBS's support it?
+What is the Warranty? 5 Years?
+
+---------------------------------------------------------------------------
+
+
+                    Modem Compatibility Listing:
+                    ============================
+
+
+These modems will usually be downwardly compatible with 2400 Baud and slower
+modems, Which means they are also CCITTY V.22bis and Bell 103/212A compatible.
+Most have an auto-fall back mode that will detect the highest negotiable Baud
+rate, which can either through hardware or software configuration. 
+If the modem is V.42 capable, it will fall back to MNP if the other modem is
+not LAP-M  capable, but is MNP capable. Modems supporting MNP will connect
+with data compression/error correction with other MNP modems at the highest
+Baud rate negotiable between the two. The speeds listed here are the actual
+Raw speed, not possible throughput that can be achieved using data compression.
+ 
+Listed in alphabetical order by brand name - 
+
+Generic V.32 only
+   Made by a number of companies using the CCITT method of communicating at
+   9600 bps.
+   These are expected to become outdated as V.42 is added to most V.32 modems
+ - Talks to other brand V.32 modems at 9600 Baud.
+
+Generic V.42 Only
+  If a Modem is V.42 or V.42bis only, and not V.32, then it can only talk to
+  other V.42 modems at 2400, (with 9600 throughput using data compression)
+  This is not considered a 9600 Modem and should be avoided.
+- Talks to other brand V.42 modems at 2400 Baud with LAP-M.
+
+Generic V.32/V.42 (and V.42bis)
+   These modems follow BOTH the CCITT V.32 and V.42 standards for
+   communicating at 9600 bps.
+ - Talks to other brand V.32 modems at 9600 Baud.
+ - Talks to other brand V.42 modems at Top Supported Baud.
+
+(Some Generic Brands include: Anderson Jacobson, Codex, Computer Peripherals,
+Digicom, E-Tech, Farallon, Fastcomm, General Datacom, Intel, Magic, Mastercom,
+Microcom, Multi-tech, NEC, Practical Peripherals, Prometheus, Radcal Vadic,
+Shiva, Telebit, Telenetics, USD, and many others just appearing
+Some of these offer LAP-M and V.42bis, and some do not.)
+
+
+ Hayes V-Series:
+   The early Hayes V-Series uses a proprietary method of communicating at
+   9600 bps.
+ - Talks other Hayes V-Series modems at 9600 Baud.
+
+ Hayes V-Series V.42:
+   The Hayes V-Series V.42 uses the proprietary method of communicating at
+   9600 Baud but will incorporate the V.42 data compression and error checking
+ - Talks to other V.42 modems at 2400 with error correction/compression.
+   Talks to other MNP modems at 2400 using error correction/compression.
+   Talks to other Hayes V-Series at 9600.
+
+ Hayes ULTRA:
+   Uses CCITT V.32 and V.42bis method for communicating at 9600 Baud.
+   Has MNP5 abilities.
+   Has LAP-M abilities
+ - Talks to Other V.32 modems at 9600 Baud
+   Talks to other V.42 modems at up to 9600 Baud
+   Talks to other Hayes V-Series at 9600
+
+ Telebit Trailblazer:
+   Uses proprietary PEP method of communicating at 9600 Baud.
+   Has MNP5 abilities.
+ - Talks to other Telebit Trailblazers at 9600.
+   Talks to other MNP modems at 2400 baud with error correction/compression  
+
+ USR Courier V.32:
+   Uses CCITT V.32 and V.42 method of communicating at 9600 Baud.
+   offers MNP5 abilities.
+ - Talks to Other V.32 modems at 9600 Baud.
+   Talks to Other V.42 modems at up to 9600 baud
+ USR Courier HST: (old version)
+   Uses the USR proprietary HST method of communicating at 9600 Baud.
+   Has MNP5 abilities.
+ - Talks to HST type modems at up to 9600 Baud.
+
+ USR Courier HST 14.4:
+   Uses the USR proprietary HST method of communicating at 9600 Baud.
+   Has MNP5 abilities.
+ - Talks to HST DS's at 14,400 Baud
+   Talks to HST 14.4's at 14,400 Baud
+   Talks to HST's at 9600 Baud
+
+ USR Courier HST DS:
+   The Dual Standard incorporates both the proprietary HST method of
+   communicating at 14400 baud and the and the CCITT V.32 & v.42 methods of
+   communicating at 9600 Baud. (and V.32bis after 1/1/1991)
+   Has MNP5 abilities.
+ - Talks to Other V.32 modems at 9600 Baud.
+   Talks to Other V.32bis modems 14,400 Baud.
+   Talks to Other DS's at 14,400 Baud 
+   Talks to 14.4 HST's at 14,400 Baud 
+   Talks to old 9600 HST's at 9600 Baud.
+
+COMPUcom Speedmodem/Fax:
+    Uses the Proprietary DIS at 9600 Baud.
+    Has 7200 and 4800 Baud Fall back
+    Has CCITT FAX V.27ter & V.29
+    Has MNP5 abilities.
+    Has CSP abilities. 
+    Talks to Group III Faxes at 9600.
+   -Talks to Speedmodems at 9600.
+    Talks to other MNP modems at 2400 with error correction/compression
+
+-----------------------------------------------------------------------------
+Manufacturer           Toll Free       Charge Call     Support BBS 
+============          ==============  ==============  ==============
+Anchor                (800) 541-2318
+Anderson Jacobson     (800) 438-8520  (408) 435-8520
+Codex                                 (508) 261-4000 
+Compucom              (800) 228-6648  (408) 732-4500  (408) 738-4990
+Computer Peripherals  (800) 854-7600  (805) 499-5751  (805) 499-9646 
+Digicom               (800) 574-2730
+E-Tech                                (408) 982-0270
+Farallon                              (415) 596-9100
+Fastcomm              (800) 521-2496  (703) 620 3900
+General Datacom       (203) 574-1118
+Hayes                 (800) 241-9625  (404) 441-1617  (800) 874-2937
+Intel                 (800) 538-3373                  (503) 645-6275
+Magic Modems          (800) 622-3475
+Mastercom                             (213) 834-6666
+Microcomm             (800) 822-8224  (617) 551-1000
+Multi-Tech            (800) 328-9717
+NEC                   (800) 222-4632  (408) 433-1250
+Practical Peripherals (800) 442-4774  (818) 706-0333
+Prometheus            (800) 477-3473  (503) 624-0571
+Radcal Vadic          (800) 482-3427  (408) 432-8008
+Radcal Milgo          (800) 327-7909  (305) 846-1601
+Shiva                 (800) 458-3550  (617) 864-8500
+Telebit               (800) 835-3248  (408) 734-4333
+Telenetics            (800) 822-4267  (714) 779-2766
+USD                   (800) 631-4869  (205) 430-8000
+USRobotics            (800) DIAL-USR  (708) 982-5001  (708) 982-5092
+
+	
+----------------------------------------------------------------------------
+
+                          Price Comparisons
+                          =================
+
+No Prices have been stated above this Section, because prices often change,
+and I want to keep all the prices together so they could be quickly updated
+as needed. There are 3 types of prices I will cover. First is The Retail price,
+second is the Sysop price, which is only available if you run a BBS.
+
+Many Modem Manufactures offer BBS Sysop special prices directly, at about
+50% off the retail price. First the BBS has to be verified, so the modem
+manufacture knows that is a real BBS that has been running for at least
+6 Months, and has a minimum number of users, etc. Usually the Manufacturer
+will call the BBS once, or twice a few week apart to be sure. Verification
+usually take 3-4 weeks. Then the Sysop has to agree to use the Modem on the
+BBS for some set amount of time.
+
+-----------------------------------------------------------------
+Generic Brands         Retail          Sysop
+
+V.32 Only    EXT       $650-$1,000    ???? 
+V.32/V.42    EXT       $700-$1,000    ????
+V.32/V.42bis EXT       $700-$1,200    $339+
+
+Software Included: Varies
+Warranty: Varies 1-5 years
+-----------------------------------------------------------------
+Hayes                    Retail      Sysop
+
+Ultra V.32/V.42          $1,199      $599
+V-Series V.42 (not V.32)   $999      $499
+V-Series 9600              $799      $399
+
+Software Included: None
+Warranty: 2 years
+-----------------------------------------------------------------
+Compucom                 Retail      Sysop 
+
+SpeedModem/Fax INT         $279      $169
+
+Software included: BitFax
+Warranty: 5 years
+-----------------------------------------------------------------
+Intel                    Retail      Sysop
+
+9600EX                     $799      $399
+
+Software included: None
+Warranty: 5 years
+-----------------------------------------------------------------
+Practical Peripherals    Retail      Sysop
+
+V.32/V.42  EXT             $699      $339
+V.32/V.42  INT              N/A      N/A
+
+Software Included: None
+Warranty: 5 Years
+
+Note: Due to many reports of Incompatibilities/Problems from Owners
+of these new P.P. Modems, I would not currently recommend them, although
+they are currently the lowest priced V.32 I have seen.
+
+------------------------------------------------------------------
+Telebit                   Retail       Sysop
+
+T1000                      ???        ???
+T1500 V.32                 ???        ???
+TrailBlazer INT            ???        ???
+Trailblazer EXT            ???        ???
+T2500 V.32/V.42            ???        ???
+
+Software Included:None
+Warranty: 5 years
+------------------------------------------------------------------
+USRobotics                Retail       SysOp
+
+Courier Dual Standard E   $1,595       $699 
+Courier Dual Standard I   $1,395       $649 
+Courier V.32/V.42 EXT     $1,099       $599   
+Courier V.32/V.42 INT       $949       $577   
+Courier HST 14.4  EXT       $995       $449 
+Courier HST 14.4  INT       $895       $405 
+DS Upgrade Kit for HST EXT  $600       $300 
+DS Upgrade Kit for HST INT  $500       $250
+
+Software included: None
+Warranty: 2 Years
+------------------------------------------------------------------
+Document updates:
+
+Date       Release    Comments
+----       -------    --------
+10/30/90   1.0        Initial Release. Should have run a spell checker!
+11/08/90   1.1        Spelling fixes, V.32bis update, Compucom update 
+01/10/91   1.2        USR V.32bis Update, other minor corrections
+01/11/91   1.2b       Speedmodem Corrections submitted to Remco Treffkorn
+                      for feedback (not for public release)
+01/19/91   1.2c	      Ran the spelling checker through this unbelievable
+                      document.  Some of the spelling is still wrong like
+                      "weather" for "whether."  (T. Rosen)
+
+** End-of-file **
--- a/textfiles.com/computers/9600info.inf
+++ b/textfiles.com/computers/9600info.inf
@@ -0,0 +1,336 @@
+ 
+                                9600 Baud MODEM
+
+Not long ago, many data communicators thought that dial-up modem manufacturers
+had pushed transmission speeds to the limit with the introduction of 2400 bit
+per second (bps) modems.  Recently, however, several manufacturers have
+creatively combined  relatively mature techniques of data transmission with
+newer technology and have introduced 9600 bps modems.
+
+Unfortunately, a widely accepted standard for full duplex 9600 bps
+transmission as defined by the International Consultative Committee for
+Telegraphy and Telephony (CCITT) does not yet exist (the CCITT is currently
+considering proposals for a new 9600 bps dial-up standard).  This means that
+today's 9600 bps modems do not offer cross-manufacturer compatibility.  The
+CCITT HAS endorsed a half duplex and a full duplex 9600 bps standard, but to
+date implementations of these relatively flexible standards have been
+proprietary, i.e., even the "standardized" modems from different manufacturers
+are not compatible.
+
+All this means that modem users who want to enjoy the dream speed of 9600 bps
+must weigh the pros and cons of each 9600 bps technique before committing to a
+particular 9600 bps design.  This paper was written in an effort to provide
+typical modem users with enough technical information and insight that they
+will be able to consider the new 9600 bps modems from the position of an
+educated consumer and not have to rely on information gleaned from sales
+brochures and advertisements.  It should be noted that the author, Wes Cowell,
+is an employee of USRobotics.
+
+                              THE ROAD TO 9600
+
+High speed data communications via the dial-up phone network is limited by the
+available phone line bandwidth and by random channel impairments.  Just as the
+diameter of a pipe limits its liquid flow capacity, so does the telephone
+channel bandwidth limit its data flow capacity.
+
+The roughly 3000-Hz available in the telephone bandwidth poses few problems
+for 300 bps modems, which only use about one fifth of the bandwidth.  A full
+duplex 1200 bps modem requires about half the available bandwidth,
+transmitting simultaneously in both directions at 600 baud and using phase
+modulation to signal two data bits per baud.  "Baud rate" is actually a
+measure of signals per second.  Because each signal can represent more than
+one bit, the baud rate and bps rate of a modem are not necessarilly the same.
+In the case of 1200 bps modems, their baud rate is actually 600 (signals per
+second) and each signal represents two data bits.  By multiplying signals per
+second with the number of bits represented by each signal one determines the
+bps rate: 600 signals per second X 2 bits per signal = 1200 bps.
+
+In moving up to 2400 bps, modem designers decided not to use more bandwidth,
+but to increase speed through a new signalling scheme known as quadrature
+amplitude modulation (QAM).
+
+In QAM, each signal represents four data bits.  Both 1200 bps and 2400 bps
+modems use the same 600 baud rate, but each 1200 bps signal carries two data
+bits, while each 2400 bps signal carries four data bits:
+600 signals per second X 4 bits per signal = 2400 bps.
+
+A technique known as adaptive equalization enables 2400 bps modems to adapt to
+phone line impairments call-by-call. Essentially, if the modem is experiencing
+problems with a noisy line, it looks for a "sweet spot" in the bandwidth and
+attempts to avoid troublesome frequencies.  This technique makes 2400 bps
+modems more tolerant of line noise than their 1200 bps counterparts that use
+compromise equalization (a one-size-fits-all approach).
+
+While these advanced modulation and equalization techniques in 2400 bps modems
+provide for double the data rate of 1200 bps modems, they also result in a
+design at least four times more complex than 1200 bps modems.
+
+Which brings us to the problem of designing a 9600 bps modem.
+
+Jumping to 9600 from 2400 bps is several orders of magnitude more complicated
+than going to 2400 from 1200 bps.  Telephone network characteristics make it
+highly unlikely that success will be had in  extending the "data signal
+alphabet" (number of bits represented by each signal) beyond four bits per
+signal.
+
+Instead, modem designers must increase the bandwidth that is to carry the
+signal, and this presents a very big problem.  In fact, at speeds of 4800 bps
+(1200 signals per second), the transmit and receive channels must be expanded
+to the point where they actually begin to overlap. A  9600 bps "band"
+requires roughly 90 percent of the available bandwidth, making it impossible
+to have two-way communication without the bands interfering with each other.
+
+A helpful analogy to the problem might be to consider a two lane highway:
+traffic must flow in both directions simultaneously, but to carry more cars
+per unit of time, highway designers must either increase the number of lanes
+in each direction or widen the two lanes to accommodate driver error with a
+margin of safety.  Unfortunately, these options are not available to modem
+designers as the available bandwidth is of a fixed size.
+
+With these considerations and limitations in mind, let's examine three basic
+ways to accomplish full duplex (two-way) 9600 bps communications:  echo
+cancellation, virtual full duplex (achieved by half duplex systems), and
+asymmetrical frequency division.
+
+                              ECHO-CANCELLATION
+
+This method solves the problem of overlapping transmit and receive channels.
+Each modem's receiver must try to filter out the echo of its own transmitter
+and concentrate on the other modem's transmit signal.  This presents a
+tremendous computational problem that significantly increases the complexity
+-- and cost -- of the modem.  But it offers what other schemes don't:
+simultaneous two-way transmission of data at 9600 bps.
+
+The CCITT "V.32" recommendation for 9600 bps modems includes echo-
+cancellation.  The transmit and receive bands overlap almost completely, each
+occupying 90 percent of the available bandwidth.  Measured by computations per
+second and bits of resolution, a V.32 modem is roughly 64 times more complex
+than a 2400 bps modem.  This translates directly into added development and
+production costs which means that it will be some time before V.32 modems can
+compete in the high- volume modem market.
+
+Despite the fact that V.32 is a recognized standard, it is uneconomical and
+unnecessarily complex for personal computer datacomm applications that simply
+don't require simultaneous two-way 9600 bps transmission.
+
+                              HALF DUPLEX SYSTEMS
+                             (Virtual Full Duplex)
+
+Half duplex solutions devote the entire bandwidth to 9600 bps in one direction
+at a time, and "ping-pong" the data flow back and forth to simulate full
+duplex.  This is potentially the simplest scheme.  Its performance is
+acceptable in data transfer applications that don't involve user interaction,
+i.e. file transfers. Even so, advanced error-control protocols that require
+ACKnowledgments to be sent in response to received data blocks generate a high
+number of "line reversals" which greatly impair overall data throughput.  In
+short, the benefit of higher speed is so significantly compromised by line
+reversals in half duplex sessions that the net gain in data throughput may be
+marginal at best.
+
+If users want to operate in an interactive mode, their data must be sent to
+the remote computer, the data channel must be reversed, and then the data must
+be echoed back.  This process results in significant turn-around delays which
+can be very frustrating to users.
+
+Half duplex modems of this kind are most often based on CCITT recommendation
+V.29 for half duplex 9600 bps transmission on the dial-up network.  V.29 based
+data pumps used in facsimile systems are available as LSI chip sets, providing
+a short-cut to modem manufacturers, particularly to companies that don't
+develop their own modem technologies.  But the major problem is that the V.29
+modulation scheme has been outdated  by the fact that it operates in a half
+duplex mode and doesn't provide good signal to noise performance.  The V.32
+recommendation, which operates in a full duplex mode and employs Trellis
+Coding Modulation offers greater throughput and a greater immunity to channel
+impairments.
+
+To the best of my knowledge, modems employing V.29-based modulation include
+products from Racal-Vadic, Comspec, Develcon, Gamma Technology, Microcomm, and
+Electronic Vaults, Inc.  (EVI).  These modems, however, are NOT mutually
+signal compatible -- cross-manufacturer compatibility does not exist.
+
+Another modem in the half duplex category, but not based on V.29 modulation,
+is the Telebit Trailblazer (R), which uses a proprietary modulation method.
+
+Trailblazer is based on a multi-carrier technique.  Conceptually, the
+transmission channel is divided into many (512), independent, very narrow
+channels (think of our two-lane highway and imagine it as having 512 very
+narrow lanes (say, for bicycles) going in one direction and you've got a fair
+idea of how Trailblazer divides the bandwidth).  The main advantage is that no
+receiver adaptive equalizer is needed because each channel is very narrow
+compared to the overall channel bandwidth.
+
+Further, in the Trailblazer modulation scheme, the modulation rate in each
+narrow channel can be changed somewhat independently.  Trailblazer is
+different from many other modems in that the decision to fall back to lower
+speeds is built into the modem protocol, rather than controlled by the user's
+computer port.  It is claimed that in the face of channel impairments,
+throughput can be adapted gracefully to channel conditions.  Traditional
+modulation systems would have to fall back in larger steps.  But there are
+three inherent MAJOR problems:
+
+1)  The turn-around delay is very long compared to conventional modulation
+techniques because data must be sent in large blocks.   A typed character may
+take several seconds to be echoed back to the system that sent it.  As a
+result, the system fails to achieve the illusion of full duplex and is not
+really suited to interactive online sessions.
+
+2)  The Trailblazer receiver cannot "track" carrier "phase jitter" (phase
+jitter can be thought of in terms of "phase shift": think of how the whine of
+a race car goes from higher to lower as it passes the viewer --  the frequency
+of the sound is said to be "shifted" or "jittered").  Instead of cancelling
+out phase jitter (which is commonly encountered on long distance calls) the
+Trailblazer can only respond by lowering throughput to gain more immunity to
+phase jitter.
+
+3)  The ability to transmit at the maximum rate when subject to channel
+impairment is considerably less than for conventional modems.  There is one
+notable exception:  the multiple channel technique offers extremely good
+immunity to impulse noise because the impulse energy is distributed over
+narrow channels.  While conventional modems can achieve similar results
+through special coding or filtering techniques they rarely implement such
+methods.
+
+                       ASYMMETRICAL FREQUENCY DIVISION
+
+When one considers the nature of most PC datacomm applications, it is realized
+that most applications are interactive, involving manual (typed) data entry
+from one end and data file transmission from the other end.
+
+Few, if any, PC users can justify using an expensive 9600 bps channel to carry
+their typed characters when they realize that 300 bps translates to 360 words
+per minute.  Assuming one could type 100 words per minute, even a 100 bps
+transmission channel would be sufficient.
+
+On the other hand, file transfer should take advantage of the tremendous speed
+of the microprocessor.  Serial ports are often set at data rates in excess of
+19,000 bps.
+
+Considering these inherent characteristics, a communications scheme that
+incorporated a high speed and a low speed channel would be best suited for
+most PC datacomm applications.
+
+Remembering the highway analogy (higher speeds mean wider lanes), one can see
+how such a method would grant modem designers a  large portion of the
+available bandwidth for a 9600 bps channel and still leave enough room to
+accommodate a narrow 300 bps channel without any channel overlap.
+
+By utilizing two discreet channels, such a modem would avoid costly, complex
+echo-cancellation schemes.  And, because the channels carry data in both
+directions simultaneously, the communications link is a true full duplex
+connection.  This means that data entered at one system would be almost
+instantaneously echoed back -- eliminating the frustrating turn-around delay
+experienced in half duplex sessions.
+
+USRobotics has developed just such a modem.  It passes data in one direction
+using the V.32 modulation technique (a very robust method that is very immune
+to phone line impairments) but employs only a 300 bps channel in the opposite
+direction so that the channels do not overlap and echo-cancellation is not
+necessary.
+
+The use of the high-speed channel by the two modems is based on data demand.
+In most applications, however, "channel swapping" will not be required.  For
+interface elegance, the modems employ a 4K buffer that allow them to perform
+data rate conversion: sending and receiving speeds remain constant between the
+modem and the computer -- it is only in between the modems that transmitted
+and received data run at different speeds.
+
+For interactive sessions, users are assigned the low-speed channel while the
+data sent to them (long mail messages, menus, files, etc.) in the 9600 bps
+channel.
+
+For file transfer sessions, the data blocks that make up a file are sent in
+the 9600 bps channel while the corresponding ACKnowledgments are returned in
+the 300 bps channel.  An asymmetric frequency division scheme is ideal for
+file transfer where large data blocks (usually several hundred bytes in
+length) are transmitted in the high-speed channel and the ACKs (usually only
+a few bytes in length) are carried in the low-speed channel.
+
+If a user switches from an interactive mode to file transfer and then back to
+interactive mode, the high speed channel is dynamically and automatically
+assigned to the system with the greatest data demand.
+
+                              A BRIEF COMPARISON
+
+Three options exist for data communicators who desire to operate at 9600 bps:
+
+1)  V.32-type modems offer a full duplex connection but do so by virtue of
+echo-cancellation.  This technique is so complex, and has proven so difficult
+to employ, that the cost for such modems will remain prohibitively high and
+their implementation a delicate task for some time to come.
+
+2)  Half duplex modems (either V.29 or multi-carrier) offer 9600 bps but the
+turn-around delay inherent in half duplex links severely compromise overall
+throughput.  This degradation of throughput, however, can be more than offset
+by data compression techniques assuming the modems in question support
+identical compression protocols and are operating on relatively "clean" phone
+lines.  Both half duplex methods suffer disproportionate degradation on
+"noisy" lines: the V.29 modems must spend more and more time in line reversals
+as detected data errors increase, and the multi-carrier modems must sacrifice
+throughput to gain noise immunity.
+
+3)  Asymmetrical Frequency Division offers 9600 bps communications in a true
+full duplex implementation.  By efficiently utilizing the available bandwidth,
+these modems provide users with high speed file transfer capabilities and fast
+response in interactive sessions.  Because the transmit and receive data
+channels do not overlap, expensive echo-cancelling techniques are unnecessary
+making these modems economically efficient.
+
+                                  IN CONCLUSION
+
+Until a widely recognized standard is agreed upon by the standards community,
+and implemented by several manufacturers, modem buyers must weigh the benefits
+and detriments of each 9600 bps scheme.
+
+V.32 would be best where symmetrical, full duplex, synchronous communication
+is desired (for example, dial-up HDLC links between multiplexers) and where
+the user can modify his software to accommodate non-"AT" command-driven
+modems.
+
+V.29 modems would be likely solutions where absolute lowest price is required
+and conformance to an international standard (in a very limited sense) is
+desired.
+
+Multi-carrier transmission schemes are well-suited to applications that
+require maximum one-way throughput and where circuit conditions are known to
+be good.  This transmission method is also ideally suited for circuits where
+immunity to impulse noise is paramount.
+
+Users who most often work with one-way file transfers (PC-to-PC) or with real-
+time applications may opt for an Asymmetrical Frequency Division scheme, which
+is suited equally well for either application.  The elegant approach to the
+frequency division (avoiding overlapping bandwidths) also allows these modems
+to present a very economical ratio between dollars and bps.
+
+Potential high-speed-modem buyers should also consider the aspects of ease-of-
+use, ease-of-implementation, and downward compatibility with existing
+implemented standards (the CCITT's V.22bis for 2400 bps, Bell 212A for 1200
+bps, and Bell 103 for 200 bps).
+
+                                  POST SCRIPT
+
+Many modem users have voiced confusion and consternation about the lack of
+compatibility between modem manufacturers at speeds greater than 2400 bps.
+
+Modem manufacturers have embraced the Bell 212A and 103 standards for 1200 and
+300 bps.  In these post-divestiture days, however, Bell no longer sets modem
+standards in the U.S. and hence, U.S. modem manufacturers have turned to the
+CCITT as a definitive source for standards.  The industry-wide acceptance of
+the CCITT's V.22bis standard for 2400 bps is the best example of this shift.
+
+The CCITT recommendations V.29 and V.32 for 9600 bps have not resulted in
+compatible implementations.  It is important to remember that V.29 was
+originally developed as a four-wire full duplex leased-line modem and has
+since been adapted by various manufacturers to encompass half duplex dial up
+applications.  Other problems with V.29 are that it compromises transmission
+speed and is poor for interactive sessions.  V.32 is proving to be
+prohibitively complex and exceptionally difficult to implement (driving
+development and production costs up).
+
+Recognizing the need for an alternative to the V.32 recommendation, the CCITT
+has requested proposals from modem manufacturers.
+
+Presently, two proposals are being considered by the CCITT.  One is the multi-
+carrier scheme developed and sponsored by Telebit.  The other is an
+Asymmetrical Frequency Division scheme developed and sponsored by USRobotics.
+
+ 
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+<HTML>
+<TITLE>T E X T F I L E S</TITLE>
+<BODY BGCOLOR="#000000" TEXT="#00FF00" LINK="#00FF00" ALINK="#00AA00" VLINK="#00AA00">
+<H1>Computer Textfiles: AST Research Technical Bulletins</H1>
+<P>
+<TABLE WIDTH=100%>
+<TD BGCOLOR=#00FF00><FONT COLOR=#000000><B>Filename</B><BR></FONT></TD>
+<TD BGCOLOR=#00DD00><FONT COLOR=#000000><B>Size</B><BR></FONT></TD>
+<TD BGCOLOR=#00AA00><FONT COLOR=#000000><B>Description of the Textfile</B><BR></TD></TR>
+
+<tab indent=60 id=T><br>
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0001a.tb">0001a.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0001A 5-18-84 COMPATIBLE CLOCK BATTERIES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0002.tb">0002.tb</A>  <tab to=T><TD> 1152<BR><TD> AST Research Technical Bulletin #0002 4-16-84 POWER-ON SELF TEST ERROR ON XT AND PORTABLE COMPUTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0003a.tb">0003a.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0003A 4-30-84 MEMORY SWITCH ERROR IN IBM GUIDE 
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0004b.tb">0004b.tb</A>  <tab to=T><TD> 3968<BR><TD> AST Research Technical Bulletin #0004B 3-19-85 D-RAM CHIP COMPATIBILITY FOR MULTIFUNCTION CARDS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0005.tb">0005.tb</A>  <tab to=T><TD> 2042<BR><TD> AST Research Technical Bulletin #0005 4-23-84 SETTING CLOCK FREQUENCY FOR SIXPAKPLUS FASTER OR SLOWER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0006.tb">0006.tb</A>  <tab to=T><TD> 1792<BR><TD> AST Research Technical Bulletin #0006 4-30-84 MONOGRAPHPLUS CAUTION STATEMENT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0007.tb">0007.tb</A>  <tab to=T><TD> 1664<BR><TD> AST Research Technical Bulletin #0007 4-13-84 CABLE CONNECTION FOR AST PARALLEL PORT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0008a.tb">0008a.tb</A>  <tab to=T><TD> 1289<BR><TD> AST Research Technical Bulletin #0008A 6-25-84 MEGAPLUS II GAME ADAPTER PROBLEM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0009.tb">0009.tb</A>  <tab to=T><TD> 773<BR><TD> AST Research Technical Bulletin #0009 4-13-84 SIXPAKPLUS WITHOUT PRINTER OPTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0010.tb">0010.tb</A>  <tab to=T><TD> 1591<BR><TD> AST Research Technical Bulletin #0010 4-13-84 IRQ-7 PARALLEL PORT CONTENTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0011.tb">0011.tb</A>  <tab to=T><TD> 740<BR><TD> AST Research Technical Bulletin #0011 5-1-84 SIXPAKPLUS VER 1.0 SCHEMATIC ERROR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0012.tb">0012.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0012 5-16-84 MEGAPLUS II IRQ SILKSCREEN CONFLICT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0013a.tb">0013a.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0013A 8-31-84 3.30 WORDSTAR PATCH FOR IBM PC'S
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0014.tb">0014.tb</A>  <tab to=T><TD> 1124<BR><TD> AST Research Technical Bulletin #0014 6-1-84 MULTIFUNCTION FEATURE SUMMARY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0015a.tb">0015a.tb</A>  <tab to=T><TD> 1664<BR><TD> AST Research Technical Bulletin #0015A 9-19-84 INCOMPATIBILITY OF COLUMBIA'S PARALLEL PORT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0016.tb">0016.tb</A>  <tab to=T><TD> 2943<BR><TD> AST Research Technical Bulletin #0016 6-7-84 FREQUENTLY-ASKED QUESTIONS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0017.tb">0017.tb</A>  <tab to=T><TD> 2508<BR><TD> AST Research Technical Bulletin #0017 6-8-84 APPROVED PARTS FOR OPTIONAL SERIAL PORTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0018.tb">0018.tb</A>  <tab to=T><TD> 705<BR><TD> AST Research Technical Bulletin #0018 6-11-84 SIXPAKPLUS SWITCH SETTING & PLUG POSITION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0019a.tb">0019a.tb</A>  <tab to=T><TD> 2048<BR><TD> AST Research Technical Bulletin #0019A 7-16-84 IBM PC ERROR CODES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0020.tb">0020.tb</A>  <tab to=T><TD> 805<BR><TD> AST Research Technical Bulletin #0020 6-18-84 COM 2 SELECTION IN IBM PC-2 EARLY MODELS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0021.tb">0021.tb</A>  <tab to=T><TD> 2048<BR><TD> AST Research Technical Bulletin #0021 6-22-84 USING A TALLGRASS HARDFILE AS THE PC-NET FILE SERVER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0022.tb">0022.tb</A>  <tab to=T><TD> 1457<BR><TD> AST RESEARCH TECHNICAL BULLETIN TB-0022 6-18-84 GAME SIGNAL LINE CONFIGURATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0023a.tb">0023a.tb</A>  <tab to=T><TD> 410<BR><TD> AST Research Technical Bulletin #0023A 4-1-85 IBM DISPLAYWRITE SERIES COMPATIBILITY WITH PCNET
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0024.tb">0024.tb</A>  <tab to=T><TD> 859<BR><TD> AST Research Technical Bulletin #0024 6-22-84 CONNECTING UDS MODEMS WITH CC432 BOARDS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0025.tb">0025.tb</A>  <tab to=T><TD> 1260<BR><TD> AST Research Technical Bulletin #0025 7-9-84 PCNET II TERMINATOR ALTERNATIVE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0026a.tb">0026a.tb</A>  <tab to=T><TD> 512<BR><TD> AST Research Technical Bulletin #0026A 8-20-84 MONOGRAPH COMPATIBILITY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0027.tb">0027.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0027 7-9-84 ERRORS DURING IBM FORMAT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0028.tb">0028.tb</A>  <tab to=T><TD> 1152<BR><TD> AST Research Technical Bulletin #0028 7-13-84 BASIC'S AVAILABLE MEMORY DISCREPANCY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0029.tb">0029.tb</A>  <tab to=T><TD> 1792<BR><TD> AST Research Technical Bulletin #0029 7-16-84 AST-PCNET PRINT SPOOLER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0030.tb">0030.tb</A>  <tab to=T><TD> 896<BR><TD> AST Research Technical Bulletin #0030 7-17-84 DMA CHANNEL ASSIGNMENT IN THE IBM PC AND XT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0031.tb">0031.tb</A>  <tab to=T><TD> 2048<BR><TD> AST Research Technical Bulletin #0031 7-17-84 AST MONOGRAPHPLUS TECHNICAL REFERENCE MANUAL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0032a.tb">0032a.tb</A>  <tab to=T><TD> 2048<BR><TD> AST Research Technical Bulletin #0032A 4-15-85 5251 VERSION 2.1 INTERRUPT REQUEST SELECTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0033a.tb">0033a.tb</A>  <tab to=T><TD> 1920<BR><TD> AST Research Technical Bulletin #0033A 9-4-84 AST-5251 VER. 2.1 ADDRESSING
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0034.tb">0034.tb</A>  <tab to=T><TD> 1536<BR><TD> AST Research Technical Bulletin #0034 7-18-84 HARDWARE INTERRUPT ASSIGNMENT IN THE IBM PC AND XT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0035.tb">0035.tb</A>  <tab to=T><TD> 2497<BR><TD> AST Research Technical Bulletin #0035 7-25-84 SWITCH SETTINGS FOR THE COMPAQ PORTABLE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0036.tb">0036.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0036 7-25-84 TESTING OF THE GAME PORT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0039.tb">0039.tb</A>  <tab to=T><TD> 1920<BR><TD> AST Research Technical Bulletin #0039 7-31-84 MONOGRAPHPLUS WITH AMDEK MD#310A
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0040.tb">0040.tb</A>  <tab to=T><TD> 584<BR><TD> AST Research Technical Bulletin #0040 8-9-84 SIXPAK GAME PORT SCHEMATIC ERROR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0043.tb">0043.tb</A>  <tab to=T><TD> 2306<BR><TD> AST Research Technical Bulletin #0043 8-20-84 PATCHING PC DOS 2.1 FOR ADDITIONAL DRIVES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0045.tb">0045.tb</A>  <tab to=T><TD> 1920<BR><TD> AST Research Technical Bulletin #0045 8-21-84 PATCHING WORDSTAR FOR PRINTING TO ALTERNATE PORTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0046.tb">0046.tb</A>  <tab to=T><TD> 1408<BR><TD> AST Research Technical Bulletin #0046 8-21-84 REBOOTING AN IBM PC FROM A BATCH FILE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0047.tb">0047.tb</A>  <tab to=T><TD> 1024<BR><TD> AST Research Technical Bulletin #0047 8-21-84 AST-PCOX VERSION 1.2 SOFTWARE WITH 4331 MODEL HOSTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0049a.tb">0049a.tb</A>  <tab to=T><TD> 2365<BR><TD> AST Research Technical Bulletin #0049A 4-1-85 SLOW PRINTING WITH SUPERSPOOL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0050.tb">0050.tb</A>  <tab to=T><TD> 632<BR><TD> AST Research Technical Bulletin #0050 10-24-84 DIAGNOSTIC TESTING OF THE PARALLEL PORT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0051.tb">0051.tb</A>  <tab to=T><TD> 768<BR><TD> AST Research Technical Bulletin #0051 10-5-84 FRAMEWORK AND AST NEWLINE FOR THE MONOGRAPHPLUS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0052a.tb">0052a.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0052A 11-8-84 CLOCK/CALENDAR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0053a.tb">0053a.tb</A>  <tab to=T><TD> 1792<BR><TD> AST Research Technical Bulletin #0053A 11-8-84 CORRECTING THE TIME/DATE OF THE AST CLOCK*
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0055.tb">0055.tb</A>  <tab to=T><TD> 9635<BR><TD> AST Research Technical Bulletin #0055 9-21-84 FAULT ISOLATION OF THE IBM PC-1
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0059.tb">0059.tb</A>  <tab to=T><TD> 1152<BR><TD> AST Research Technical Bulletin #0059 9-26-84 MONOGRAPH COMPATIBILITY WITH MS WORD 
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0061.tb">0061.tb</A>  <tab to=T><TD> 512<BR><TD> AST Research Technical Bulletin #0061 10-5-84 ASTCLOCK AND COMPAQ VERSION 2.11 CONTENTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0062.tb">0062.tb</A>  <tab to=T><TD> 1024<BR><TD> AST Research Technical Bulletin #0062 10-9-84 SUPERSPOOL AND LPT2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0064.tb">0064.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0064 10-11-84 SERIAL PORT WRAP PLUG
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0065.tb">0065.tb</A>  <tab to=T><TD> 1522<BR><TD> AST Research Technical Bulletin #0065 11-7-84 AT MOTHERBOARD MEMORY CONFIGURATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0066.tb">0066.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0066 11-27-84 SUPERSPOOL AND THE 3270 PC CONTROL PROGRAM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0067.tb">0067.tb</A>  <tab to=T><TD> 3290<BR><TD> AST Research Technical Bulletin #0067 11-16-84 CORRECTIONS TO THE ADVANTAGE! USER'S MANUAL VERSION 1.00
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0071.tb">0071.tb</A>  <tab to=T><TD> 7224<BR><TD> AST Research Technical Bulletin #0071 12-10-84 COMPATIBILITY OF AST PRODUCTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0073.tb">0073.tb</A>  <tab to=T><TD> 775<BR><TD> AST Research Technical Bulletin #0073 3-5-85 I/O MINI PARALLEL PORT UPGRADE KIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0074.tb">0074.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0074 1-28-85 CC-832/4-PORT ASYNC COMPATIBILITY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0075.tb">0075.tb</A>  <tab to=T><TD> 884<BR><TD> AST Research Technical Bulletin #0075 3-5-85 NULL MODEM CONFIGURATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0076.tb">0076.tb</A>  <tab to=T><TD> 679<BR><TD> AST Research Technical Bulletin #0076 3-11-85 I/O MINI SERIAL PORT #2 UPGRADE KIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0077a.tb">0077a.tb</A>  <tab to=T><TD> 2176<BR><TD> AST Research Technical Bulletin #0077A 7-2-85 POWER CONSUMPTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0078.tb">0078.tb</A>  <tab to=T><TD> 2200<BR><TD> AST Research Technical Bulletin #0078 4-1-85 AST PRINTED CIRCUIT BOARD DIMENSIONS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0079.tb">0079.tb</A>  <tab to=T><TD> 1024<BR><TD> AST Research Technical Bulletin #0079 4-1-85 PROPER USE OF THE AST MP MINI
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0080.tb">0080.tb</A>  <tab to=T><TD> 14548<BR><TD> AST Research Technical Bulletin #0080 4-2-85 QUICK REFERENCE: ADVANTAGE!
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0084.tb">0084.tb</A>  <tab to=T><TD> 1152<BR><TD> AST Research Technical Bulletin #0084 5-3-85 MGO 123/PREVU AND MAX 12E
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0089.tb">0089.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0089 5-28-85 ADVANTAGE GAME PORT UPGRADE KIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0090.tb">0090.tb</A>  <tab to=T><TD> 768<BR><TD> AST Research Technical Bulletin #0090 5-28-85 ADVANTAGE SERIAL PORT #2 UPGRADE KIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0102.tb">0102.tb</A>  <tab to=T><TD> 708<BR><TD> AST Research Technical Bulletin #0102 7-1-85 MONOGRAPHPLUS SERIAL PORT UPGRADE KIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0103.tb">0103.tb</A>  <tab to=T><TD> 512<BR><TD> AST Research Technical Bulletin #0103 7-2-85 REACH!/SMARTCOM COMPATIBILITY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0113.tb">0113.tb</A>  <tab to=T><TD> 1408<BR><TD> AST Research Technical Bulletin #0113 9-06-85 PCNET (COAX) SELFTEST PROBLEM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0116.tb">0116.tb</A>  <tab to=T><TD> 454<BR><TD> AST Research Technical Bulletin #0116 10-22-85 RAMPAGE! OPERATION IN IBM-3270 PC
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0117.tb">0117.tb</A>  <tab to=T><TD> 642<BR><TD> AST Research Technical Bulletin #0117 11-01-85 AST-PCOX AND IBM'S ENHANCED COLOR GRAPHICS ADAPTER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0131.tb">0131.tb</A>  <tab to=T><TD> 2176<BR><TD> AST Research Technical Bulletin #0131 11-01-85 COMPATIBILITY OF AST-5251/12 WITH HAYES 2400 BAUD MODEM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0132.tb">0132.tb</A>  <tab to=T><TD> 576<BR><TD> AST Research Technical Bulletin #0132 11-01-85 CONCORD V.22 COMPATIBILITY WITH AST-3780
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0133.tb">0133.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0133 11-07-85 AST-PCOX FIRMWARE IDENTIFICATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0134.tb">0134.tb</A>  <tab to=T><TD> 2176<BR><TD> AST Research Technical Bulletin #0134 11-11-85 AST-3780 TROUBLESHOOTING
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0135.tb">0135.tb</A>  <tab to=T><TD> 1664<BR><TD> AST Research Technical Bulletin #0135 11-11-85 AST-PCOX TROUBLESHOOTING
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0136.tb">0136.tb</A>  <tab to=T><TD> 768<BR><TD> AST Research Technical Bulletin #0136 12-30-85 5250FT/11-A DOCUMENTATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0137.tb">0137.tb</A>  <tab to=T><TD> 1017<BR><TD> AST Research Technical Bulletin #0137 12-20-85 AST 5251/11 EMULATION SOFTWARE VERSION 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0138.tb">0138.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0138 12-19-85 AST 5251/11 EMULATION SOFTWARE VERSION 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0139.tb">0139.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0139 11-19-85 CONFIGURING AST COMMUNICATION AND LAN NETWORK BOARDS 
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0140.tb">0140.tb</A>  <tab to=T><TD> 512<BR><TD> AST Research Technical Bulletin #0140 1-15-86 FOURPORT/XN
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0141.tb">0141.tb</A>  <tab to=T><TD> 1536<BR><TD> AST Research Technical Bulletin #0141 12-6-85 AST-SNA SLOW PRINTER FIX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0142.tb">0142.tb</A>  <tab to=T><TD> 1536<BR><TD> AST Research Technical Bulletin #0142 12-6-85 AST-BSC SLOW PRINTER FIX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0143.tb">0143.tb</A>  <tab to=T><TD> 1408<BR><TD> AST Research Technical Bulletin #0143 1-15-86 TWO SIXPAKPLUS CLOCK CHIPS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0144.tb">0144.tb</A>  <tab to=T><TD> 512<BR><TD> AST Research Technical Bulletin #0144 1-15-86 RAMPAGE/AT SWITCH SETTINGS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0145.tb">0145.tb</A>  <tab to=T><TD> 1152<BR><TD> AST Research Technical Bulletin #0145 11-25-85 RAMPAGE CONFLICT WITH IBM PC I
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0146.tb">0146.tb</A>  <tab to=T><TD> 996<BR><TD> AST Research Technical Bulletin #0146 1-15-86 REACH! JUMPER SETTINGS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0272.tb">0272.tb</A>  <tab to=T><TD> 474<BR><TD> AST Research Technical Bulletin #0272 04/28/87 PREVIEW I\O AND THE PREMIUM 286
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0274.tb">0274.tb</A>  <tab to=T><TD> 466<BR><TD> AST Research Technical Bulletin #0274 04/24/87 AST FASTRAM MEMORY
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0288.tb">0288.tb</A>  <tab to=T><TD> 2594<BR><TD> AST Research Technical Bulletin #0288 08/03/87 AST 5250 EMULATION WITH DESQVIEW
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0289.tb">0289.tb</A>  <tab to=T><TD> 982<BR><TD> AST Research Technical Bulletin #0289 08-05-87 SIXPAKPREMIUM/EGA USER'S MANUAL
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0293.tb">0293.tb</A>  <tab to=T><TD> 952<BR><TD> AST Research Technical Bulletin #0293 8/11/87 STACK ERROR/MS-DOS 3.2
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0296.tb">0296.tb</A>  <tab to=T><TD> 451<BR><TD> AST Research Technical Bulletin #0296 9-22-87 HOTSHOT 286 AND REX.SYS 1.0
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0298.tb">0298.tb</A>  <tab to=T><TD> 2442<BR><TD> AST Research Technical Bulletin #0298 9-11-87 HARDCARD 10 - 40 & PREMIUM/286
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0303.tb">0303.tb</A>  <tab to=T><TD> 2934<BR><TD> AST Research Technical Bulletin #0303 9-22-87 AST5250 GATEWAY WITH IBM'S TOKEN RING NETWORK
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0304.tb">0304.tb</A>  <tab to=T><TD> 1024<BR><TD> AST Research Technical Bulletin #0304 9-22-87 AST 3G/PLUS AND BASIC BORDER COLORS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0306.tb">0306.tb</A>  <tab to=T><TD> 896<BR><TD> AST Research Technical Bulletin #0306 8-24-87 AST-3270/COAX SERIES PRODUCTS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0308.tb">0308.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0308 9-22-87 AST-NETBIOS TAPESTRY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0309.tb">0309.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0309 9-22-87 2X 2400 MODEM/CC432
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0311.tb">0311.tb</A>  <tab to=T><TD> 512<BR><TD> AST Research Technical Bulletin #0311 9-29-87 AST STARPORT HEAT CAUTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0312.tb">0312.tb</A>  <tab to=T><TD> 1664<BR><TD> AST Research Technical Bulletin #0312 9-29-87 FOURPORT/XN INSTALLATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0313.tb">0313.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0313 10-2-87 2X9600 MODEM/UNIX OR XENIX HOSTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0314.tb">0314.tb</A>  <tab to=T><TD> 768<BR><TD> AST Research Technical Bulletin #0314 10-5-87 AST NETBIOS VARIABLE LIMITS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0315.tb">0315.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0315 10-8-87 AST-PCNET / AT & T 6300+
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0321.tb">0321.tb</A>  <tab to=T><TD> 608<BR><TD> AST Research Technical Bulletin #0321 10-26-87 AST 5250/DOS VERSIONS 3.20
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0323.tb">0323.tb</A>  <tab to=T><TD> 5924<BR><TD> AST Research Technical Bulletin #0323 10-28-87 AST-5250 SOFTWARE COMPATIBILITY 
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0324.tb">0324.tb</A>  <tab to=T><TD> 886<BR><TD> AST Research Technical Bulletin #0324 10-24-87 5250 ALTERNATE CONFIGURATION FILENAME
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0325.tb">0325.tb</A>  <tab to=T><TD> 645<BR><TD> AST Research Technical Bulletin #0325 10-24-87 5250 SHUTDOWN.EXE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0326.tb">0326.tb</A>  <tab to=T><TD> 461<BR><TD> AST Research Technical Bulletin #0326 10-29-87 AST-3780/NCR PC6
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0327.tb">0327.tb</A>  <tab to=T><TD> 487<BR><TD> AST Research Technical Bulletin #0327 10-24-87 PCOX/COMPAQ
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0328.tb">0328.tb</A>  <tab to=T><TD> 594<BR><TD> AST Research Technical Bulletin #0328 10-25-87 3270/FTS-C/PROBLEMS WITH TSO
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0329.tb">0329.tb</A>  <tab to=T><TD> 445<BR><TD> AST Research Technical Bulletin #0329 10-26-87 CROSSTALK/PREMIUM 286
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0330.tb">0330.tb</A>  <tab to=T><TD> 439<BR><TD> AST Research Technical Bulletin #0330 10-26-87 CODEVIEW/PREMIUM 286
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0331.tb">0331.tb</A>  <tab to=T><TD> 1211<BR><TD> AST Research Technical Bulletin #0331 11-13-87 PCOX/3270 COAX / KEYTRONICS KEYBOARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0332.tb">0332.tb</A>  <tab to=T><TD> 1216<BR><TD> AST Research Technical Bulletin #0332 10-22-87 AST-RSN/AST-PREMIUM 286
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0333.tb">0333.tb</A>  <tab to=T><TD> 1824<BR><TD> AST Research Technical Bulletin #0333 11-13-87 5250 EMULATION/HP LASERJET II
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0334.tb">0334.tb</A>  <tab to=T><TD> 462<BR><TD> AST Research Technical Bulletin #0334 11-23-87 AST PCNET AND EASY PLUS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0336.tb">0336.tb</A>  <tab to=T><TD> 850<BR><TD>  AST Research Technical Bulletin #0336 11/19/87 COAX PRODUCTS/KEYTRONICS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0338.tb">0338.tb</A>  <tab to=T><TD> 1048<BR><TD>  AST Research Technical Bulletin #0338 12/01/87 AST ADVANCED NETWARE/86 LIMITATIONS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0345.tb">0345.tb</A>  <tab to=T><TD> 6565<BR><TD>  AST Research Technical Bulletin #0345 11/19/87 AST-5250/CLUSTER INSTALLATION
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0429.tb">0429.tb</A>  <tab to=T><TD> 10253<BR><TD> AST Research Technical Bulletin #0429B 01-02-90 PREMIUM/386 AND 386C DIAGNOSTICS AND UTILITIES
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0499.tb">0499.tb</A>  <tab to=T><TD> 1192<BR><TD> AST Research Technical Bulletin #0499A 05/16/90 AST-5250 ASYNC DIAL-UP FUNCTIONAL ISSUES
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0513.tb">0513.tb</A>  <tab to=T><TD> 3235<BR><TD> AST Research Technical Bulletin #0513F 11-15-90 AST-5251/11 FUNCTIONAL ISSUES
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0600.tb">0600.tb</A>  <tab to=T><TD> 1110<BR><TD> AST Research Technical Bulletin #0600 01-16-90 486/25 SETUP: COPROCESSOR INSTALLATION
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0607.tb">0607.tb</A>  <tab to=T><TD> 1049<BR><TD> AST Research Technical Bulletin #0607 01-29-90 ASTCACHE AND 3.5" FLOPPY DRIVES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0608.tb">0608.tb</A>  <tab to=T><TD> 847<BR><TD> AST Research Technical Bulletin #0608A 02-26-90 ASTEMM.SYS AND MICROSOFT EXCEL 2.1
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0611.tb">0611.tb</A>  <tab to=T><TD> 939<BR><TD> AST Research Technical Bulletin #0611 02-08-90 WORKSTATION/286 WITH NETWORTH ETHERNEXT CARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0612.tb">0612.tb</A>  <tab to=T><TD> 840<BR><TD> AST Research Technical Bulletin #0612 02-14-90 WORKSTATION/286 AND PROTEON PRONET 10 CARDS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0613.tb">0613.tb</A>  <tab to=T><TD> 3108<BR><TD> AST Research Technical Bulletin #0613A 04-19-90 FASTBOARD 486/25 UPGRADE REQUIREMENTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0614.tb">0614.tb</A>  <tab to=T><TD> 2400<BR><TD> AST Research Technical Bulletin #0614 03-02-90 PREVIEW I/O PARALLEL PORT ADDRESS CORRECTIONS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0615.tb">0615.tb</A>  <tab to=T><TD> 1124<BR><TD> AST Research Technical Bulletin #0615 03-02-90 CONFIGURING FLOPPY DRIVES FOR AST SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0616.tb">0616.tb</A>  <tab to=T><TD> 869<BR><TD> AST Research Technical Bulletin #0616 03-07-90 AST 3780 COMPATIBILITY ISSUES
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0619.tb">0619.tb</A>  <tab to=T><TD> 1798<BR><TD> AST Research Technical Bulletin #0619 03-20-90 RUNNING COMPATIBILITY TESTS ON THE VGA PLUS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0620.tb">0620.tb</A>  <tab to=T><TD> 865<BR><TD> AST Research Technical Bulletin #0620 03-27-90 BRAVO/386SX WITH TIARA LAN ADAPTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0621.tb">0621.tb</A>  <tab to=T><TD> 962<BR><TD> AST Research Technical Bulletin #0621 04-04-90 WD7000-ASC SCSI CARDS AND PREMIUM 386/25 AND 386/33
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0623.tb">0623.tb</A>  <tab to=T><TD> 1073<BR><TD> AST Research Technical Bulletin #0623A 02-08-91 COMPUTONE INTELEPORT 8 CARDS AND PREMIUM 386/25 AND 386/33
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0624.tb">0624.tb</A>  <tab to=T><TD> 667<BR><TD> AST Research Technical Bulletin #0624 04-16-90 IBM OS/2 1.1, ESDI DRIVES AND PREMIUM 386C COMPUTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0625.tb">0625.tb</A>  <tab to=T><TD> 2083<BR><TD> AST Research Technical Bulletin #0625A 05/16/90 AST 5250 GATEWAY COMPATIBILITY ISSUES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0626.tb">0626.tb</A>  <tab to=T><TD> 458<BR><TD> AST Research Technical Bulletin #0626 05-02-90 CONFIGURING AST 5251/11 ENHANCED AS A 3196 TERMINAL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0627.tb">0627.tb</A>  <tab to=T><TD> 1237<BR><TD> AST Research Technical Bulletin #0627 05/31/90 INCOMPATIBLE DRAMS FOR RAMPAGEPLUS/286
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0628.tb">0628.tb</A>  <tab to=T><TD> 711<BR><TD> AST Research Technical Bulletin #0628 06-29-90 USE OF ASTEMM.SYS WITH SUPERCALC 5
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0629.tb">0629.tb</A>  <tab to=T><TD> 1408<BR><TD> AST Research Technical Bulletin #0629 06-27-90 AUTOSENSING OPERATION OF THE VGA PLUS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0630.tb">0630.tb</A>  <tab to=T><TD> 790<BR><TD> AST Research Technical Bulletin #0630 07-01-90 BRAVO 386SX/DEC DEPCA CARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0631.tb">0631.tb</A>  <tab to=T><TD> 707<BR><TD> AST Research Technical Bulletin #0631 07-06-90 AST-TURBOSCAN COMPATIBILITY ISSUE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0632.tb">0632.tb</A>  <tab to=T><TD> 825<BR><TD> AST Research Technical Bulletin #0632 08-13-90 PREMIUM 386SX/16 AND VERSACAD 386
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0633.tb">0633.tb</A>  <tab to=T><TD> 753<BR><TD> AST Research Technical Bulletin #0633 08-15-90 AST SYSTEMS/DIGITAL RESEARCH FlexOS V2.2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0634.tb">0634.tb</A>  <tab to=T><TD> 5095<BR><TD> AST Research Technical Bulletin #0634 08-23-90 AST SHADOW BIOS MEMORY ADDRESSES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0635.tb">0635.tb</A>  <tab to=T><TD> 715<BR><TD> AST Research Technical Bulletin #0635 09-17-90 PREMIUM 386C SYSTEMS WITH PHILLIPS CD ROM PLAYER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0636.tb">0636.tb</A>  <tab to=T><TD> 1553<BR><TD> AST Research Technical Bulletin #0636 10-02-90 PREMIUM 486/25 - NOVELL AND IBM TOKEN RING CARDS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0637.tb">0637.tb</A>  <tab to=T><TD> 896<BR><TD> AST Research Technical Bulletin #0637 10-04-90 AST COMPUTERS AND EVEREX TAPE DRIVES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0638.tb">0638.tb</A>  <tab to=T><TD> 902<BR><TD> AST Research Technical Bulletin #0638 10-10-90 VGA PLUS AND WESTERN DIGITAL ETHERCARD PLUS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0639.tb">0639.tb</A>  <tab to=T><TD> 772<BR><TD> AST Research Technical Bulletin #0639 10-25-90 SMC ARCNET AND 5251/11-A ENHANCED
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0640.tb">0640.tb</A>  <tab to=T><TD> 930<BR><TD> AST Research Technical Bulletin #0640 11-05-90 MULTIPLE IPX VERSIONS AND 5250 GATEWAY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0641.tb">0641.tb</A>  <tab to=T><TD> 1513<BR><TD> AST Research Technical Bulletin #0641 11-08-90 NEW 386SX/16 PROCESSOR BOARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0642.tb">0642.tb</A>  <tab to=T><TD> 2533<BR><TD> AST Research Technical Bulletin #0642 11-12-90 VGA MODES SUPPORTED ON AST VGA PRODUCTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0643.tb">0643.tb</A>  <tab to=T><TD> 1109<BR><TD> AST Research Technical Bulletin #0643 11-06-90 RAMPAGEPLUS/286 AND ZENITH COMPUTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0644.tb">0644.tb</A>  <tab to=T><TD> 1668<BR><TD> AST Research Technical Bulletin #0644 11-12-90 AST COMPUTERS AND CHECKIT V3.0 SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0645.tb">0645.tb</A>  <tab to=T><TD> 796<BR><TD> AST Research Technical Bulletin #0645 11-13-90 NOVELL NETBIOS ISSUES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0646.tb">0646.tb</A>  <tab to=T><TD> 1204<BR><TD> AST Research Technical Bulletin #0646 11-15-90 TAPE DRIVE MOUNTING PROBLEMS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0648.tb">0648.tb</A>  <tab to=T><TD> 706<BR><TD> AST Research Technical Bulletin #0648 10-23-90 BRAVO/286 WITH 3270 EMULATION SOFTWARE
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0650.tb">0650.tb</A>  <tab to=T><TD> 706<BR><TD> AST Research Technical Bulletin #0650 11-26-90 AST PREMIUM WORKSTATION/286 MEMORY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0651.tb">0651.tb</A>  <tab to=T><TD> 1522<BR><TD> AST Research Technical Bulletin #0651 12-03-90 BRAVO/386SX - SEAGATE 157A
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0652.tb">0652.tb</A>  <tab to=T><TD> 764<BR><TD> AST Research Technical Bulletin #0652 12-11-90 STARTEC BALUN HUB WITH AST5251/11 EMULATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0653.tb">0653.tb</A>  <tab to=T><TD> 992<BR><TD> AST Research Technical Bulletin #0653 12-14-90 BRAVO/486 CONFIDENCE TEST
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0654.tb">0654.tb</A>  <tab to=T><TD> 1778<BR><TD> AST Research Technical Bulletin #0654 12-21-90 PREMIUM 386/16 WITH MATH CO-PROCESSOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0655.tb">0655.tb</A>  <tab to=T><TD> 585<BR><TD> AST Research Technical Bulletin #0655A 02-04-91 AST MS OS/2 VERSION 1.2 AND MONOCHROME VIDEO ADAPTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0656.tb">0656.tb</A>  <tab to=T><TD> 841<BR><TD> AST Research Technical Bulletin #0656A 02-04-91 CATAMOUNT ATC-16 TAPE CONTROLLER AND CUPID SYSTEMS WITH CHIPS & TECHNOLOGY CHIP SET 
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0657.tb">0657.tb</A>  <tab to=T><TD> 727<BR><TD> AST Research Technical Bulletin #0657 01/17/91 PC SUPPORT VERSION 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0658.tb">0658.tb</A>  <tab to=T><TD> 845<BR><TD> AST Research Technical Bulletin #0658 01-21-91 VGA PLUS - IRQ 2 CONFLICTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0659.tb">0659.tb</A>  <tab to=T><TD> 1112<BR><TD> AST Research Technical Bulletin #0659 01-30-91 RUNNING 3270 FTS UNDER PROFS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0660.tb">0660.tb</A>  <tab to=T><TD> 590<BR><TD> AST Research Technical Bulletin #0660 01-30-91 AST 3270 COAX II WITH WEITEK MATH CO-PROCESSOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0661.tb">0661.tb</A>  <tab to=T><TD> 908<BR><TD> AST Research Technical Bulletin #0661 01-30-91 AST COAX II-CUT AND WD-1007A CONTROLLER CONFLICT
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0663.tb">0663.tb</A>  <tab to=T><TD> 821<BR><TD> AST Research Technical Bulletin #0663 02-01-91 BRAVO/386SX AND KEYBOARD ERRORS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0664.tb">0664.tb</A>  <tab to=T><TD> 810<BR><TD> AST Research Technical Bulletin #0664 02-08-91 PREMIUM COMPUTERS AND MICROSPEED PC-TRACKBALL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0665.tb">0665.tb</A>  <tab to=T><TD> 1326<BR><TD> AST Research Technical Bulletin #0665 02-14-91 GUIDELINES FOR USING NOVELL'S COMPSURF UTILITY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0666.tb">0666.tb</A>  <tab to=T><TD> 1322<BR><TD> AST Research Technical Bulletin #0666 02-13-91 NOVELL COMPSURF WITH ESDI DRIVES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0667.tb">0667.tb</A>  <tab to=T><TD> 738<BR><TD> AST Research Technical Bulletin #0667 02-18-91 PROTEON 16/4MB TOKEN RING ADAPTER (MODEL 1390) AND OS/2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0668.tb">0668.tb</A>  <tab to=T><TD> 1257<BR><TD> AST Research Technical Bulletin #0668 03-06-91 PREMIUM EXEC BATTERY PACK PRESSURE PAD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0669.tb">0669.tb</A>  <tab to=T><TD> 1325<BR><TD> AST Research Technical Bulletin #0669 03-08-91 PREMIUM 386SX-16 WITH PARADISE 8514/A PLUS CARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0670.tb">0670.tb</A>  <tab to=T><TD> 718<BR><TD> AST Research Technical Bulletin #0670 03-25-91 BRAVO/386SX AND THOMAS CONARD TC 4035
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0671.tb">0671.tb</A>  <tab to=T><TD> 907<BR><TD> AST Research Technical Bulletin #0671 04-05-91 PREMIUM II WITH IBM'S 3270 ENTRY LEVEL PROGRAM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0672.tb">0672.tb</A>  <tab to=T><TD> 656<BR><TD> AST Research Technical Bulletin #0672 04-15-91 BRAVO/486 WITH SQL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0673.tb">0673.tb</A>  <tab to=T><TD> 668<BR><TD> AST Research Technical Bulletin #0673 05-02-91 DEPCA DE-200A CARD AND ASTEMM 4.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0674.tb">0674.tb</A>  <tab to=T><TD> 764<BR><TD> AST Research Technical Bulletin #0674 05-02-91 AST PREMIUM II 386SX/20 WITH ORACLE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0675.tb">0675.tb</A>  <tab to=T><TD> 20497<BR><TD> AST Research Technical Bulletin #0675 05-02-91 CONFIGURATION FILES FOR ISA OPTION BOARDS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0676.tb">0676.tb</A>  <tab to=T><TD> 669<BR><TD> AST Research Technical Bulletin #0676 05-02-91 PREMIUM/386-C SERIAL PORT CONFLICT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0677.tb">0677.tb</A>  <tab to=T><TD> 648<BR><TD> AST Research Technical Bulletin #0677 05-02-91 GIGATREND TAPE BACK-UP UNIT AND PREMIUM 386/33
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0678.tb">0678.tb</A>  <tab to=T><TD> 1404<BR><TD> AST Research Technical Bulletin #0678A 02-05-92 PREMIUM EXEC BATTERY MANAGEMENT CONTROLLER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0679.tb">0679.tb</A>  <tab to=T><TD> 627<BR><TD> AST Research Technical Bulletin #0679 05-08-91 PREMIUM EXEC, QEMM AND DESQVIEW 2.26
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0680.tb">0680.tb</A>  <tab to=T><TD> 685<BR><TD> AST Research Technical Bulletin #0680 05-08-91 ETHERNEXT LAN CARD AND PREMIUM/286
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0684.tb">0684.tb</A>  <tab to=T><TD> 2444<BR><TD> AST Research Technical Bulletin #0684 05-21-91 NOVELL 386 WITH AST DESK TOP AND TOWER SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0685.tb">0685.tb</A>  <tab to=T><TD> 1335<BR><TD> AST Research Technical Bulletin #0685 05-24-91 THE SUPER VGA MONITOR WITH AST VGA ADAPTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0686.tb">0686.tb</A>  <tab to=T><TD> 795<BR><TD> AST Research Technical Bulletin #0686 05-28-91 BRAVO 386/SX-16 AND NOVELL'S NE2000 CARD
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0688.tb">0688.tb</A>  <tab to=T><TD> 704<BR><TD> AST Research Technical Bulletin #0688 05-31-91 PREMIUM EXEC 386SX/20 AND GEO WORKS ENSEMBLE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0689.tb">0689.tb</A>  <tab to=T><TD> 1885<BR><TD> AST Research Technical Bulletin #0689 04-30-91 PREMIUM II SYSTEM BIOS AUTOSENSE FEATURE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0690.tb">0690.tb</A>  <tab to=T><TD> 2119<BR><TD> AST Research Technical Bulletin #0690 06-18-91 EXCESSIVE HEAT IN TOWER EISA SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0691.tb">0691.tb</A>  <tab to=T><TD> 1552<BR><TD> AST Research Technical Bulletin #0691 06-19-91 PREMIUM II ILLEGAL CMOS VALUES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0692.tb">0692.tb</A>  <tab to=T><TD> 1014<BR><TD> AST Research Technical Bulletin #0692 07-12-91 PREMIUM EXEC 386SX/20 AND XIRCOM MULTIPLEXOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0693.tb">0693.tb</A>  <tab to=T><TD> 885<BR><TD> AST Research Technical Bulletin #0693 06-20-91 PREMIUM/386-25 PARALLEL PORT AND INTERACTIVE SYSTEMS UNIX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0694.tb">0694.tb</A>  <tab to=T><TD> 729<BR><TD> AST Research Technical Bulletin #0694 06-28-91 AST PREMIUM 386SX-16 AND ALSYS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0695.tb">0695.tb</A>  <tab to=T><TD> 1723<BR><TD> AST Research Technical Bulletin #0695 07-18-91 DESQVIEW AND AST SYSTEMS WITH BUILT-IN MOUSE PORT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0696.tb">0696.tb</A>  <tab to=T><TD> 1810<BR><TD> AST Research Technical Bulletin #0696A 08-16-91 SCO UNIX BOOT FAILURE WITH MEMORY EXPANSION BOARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0697.tb">0697.tb</A>  <tab to=T><TD> 1035<BR><TD> AST Research Technical Bulletin #0697A 08-19-91 SIMULATION SCIENCES SOFTWARE AND AST 486 SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0698.tb">0698.tb</A>  <tab to=T><TD> 840<BR><TD> AST Research Technical Bulletin #0698A 08-16-91 INTELLI-TREND SOFTWARE AND AST PREMIUM/386 SYSTEMS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0705.tb">0705.tb</A>  <tab to=T><TD> 995<BR><TD> AST Research Technical Bulletin #0705 09-17-91 PREMIUM EXEC AND LCD BORDER COLOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0706.tb">0706.tb</A>  <tab to=T><TD> 1026<BR><TD> AST Research Technical Bulletin #0706 09-25-91 IBM PS/PC SOFTWARE AND PREMIUM EXEC INTERNAL DATA MODEM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0707.tb">0707.tb</A>  <tab to=T><TD> 2147<BR><TD> AST Research Technical Bulletin #0707 10-10-91 PREMIUM II 486SX/20 AND LOTUS 123 RELEASE 3.1
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0709.tb">0709.tb</A>  <tab to=T><TD> 1298<BR><TD> AST Research Technical Bulletin #0709 10-14-91 AST SYSTEMS WITH IBM'S OS/2 EE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0710.tb">0710.tb</A>  <tab to=T><TD> 2286<BR><TD> AST Research Technical Bulletin #0710A 10-28-91 SCO OPEN DESKTOP IN 800X600 VIDEO MODE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0711.tb">0711.tb</A>  <tab to=T><TD> 863<BR><TD> AST Research Technical Bulletin #0711 10-28-91 PREMIUM EXEC 386SX20 AND AST MODEM SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0712.tb">0712.tb</A>  <tab to=T><TD> 1083<BR><TD> AST Research Technical Bulletin #0712A 10-28-91 PREMIUM EXEC 386SX-20 AND XIRCOM MULTIPLEXOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0713.tb">0713.tb</A>  <tab to=T><TD> 1055<BR><TD> AST Research Technical Bulletin #0713 10-31-91 AST PREMIUM EXEC 386SX-20 AND TAYLOR SOFTWARE FOR MODICON 884
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0714.tb">0714.tb</A>  <tab to=T><TD> 2030<BR><TD> AST Research Technical Bulletin #0714A 12-20-91 PREMIUM EXEC 386SX AND LOSS OF SETUP
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0715.tb">0715.tb</A>  <tab to=T><TD> 1261<BR><TD> AST Research Technical Bulletin #0715 11-05-91 AST PREMIUM EXEC 286/12 AND DOS 5.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0716.tb">0716.tb</A>  <tab to=T><TD> 1047<BR><TD> AST Research Technical Bulletin #0716 10-28-91 AST PREMIUM II 386SX-20 AND TRAK ENGINEERING SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0717.tb">0717.tb</A>  <tab to=T><TD> 1198<BR><TD> AST Research Technical Bulletin #0717 10-22-91 PREMIUM II UTILITIES WITH MIS-IDENTIFICATION OF 386/33 PROCESSOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0718.tb">0718.tb</A>  <tab to=T><TD> 1693<BR><TD> AST Research Technical Bulletin #0718 10-09-91 AST's SVGA MONITOR AND OS/2 1.21
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0719.tb">0719.tb</A>  <tab to=T><TD> 891<BR><TD> AST Research Technical Bulletin #0719 11-07-91 AST ETHERNODE AND SMC CONCENTRATORS/HUBS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0720.tb">0720.tb</A>  <tab to=T><TD> 1307<BR><TD> AST Research Technical Bulletin #0720 11-12-91 AST PREMIUM 486/33 TOWER EISA AND DPTFMT PROGRAM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0721.tb">0721.tb</A>  <tab to=T><TD> 806<BR><TD> AST Research Technical Bulletin #0721A 12-16-91 PREMIUM EXEC AND EMM386.EXE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0722.tb">0722.tb</A>  <tab to=T><TD> 1132<BR><TD> AST Research Technical Bulletin #0722 11-01-91 ADVANCED FASTRAM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0723.tb">0723.tb</A>  <tab to=T><TD> 1311<BR><TD> AST Research Technical Bulletin #0723 12-02-91 AST PREMIUM/386 TOWER EISA DETECTING RAM MEMORY AT 512K
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0724.tb">0724.tb</A>  <tab to=T><TD> 819<BR><TD> AST Research Technical Bulletin #0724 12-10-91 AST SYSTEMS AND IBM ENTRY LEVEL 3270 VERSION 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0725.tb">0725.tb</A>  <tab to=T><TD> 808<BR><TD> AST Research Technical Bulletin #0725 12-16-91 PREMIUM EXEC 386SX/25 AND NUMLOCK KEY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0726.tb">0726.tb</A>  <tab to=T><TD> 1498<BR><TD> AST Research Technical Bulletin #0726 12-16-91 PREMIUM EXEC, MS-DOS 5.0 DOSSHELL AND TASK SWAPPING
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0727.tb">0727.tb</A>  <tab to=T><TD> 1110<BR><TD> AST Research Technical Bulletin #0727 12-17-91 AST 5251/11 ENHANCED WITH P.C. SUPPORT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0728.tb">0728.tb</A>  <tab to=T><TD> 1155<BR><TD> AST Research Technical Bulletin #0728 12-26-91 AST BRAVO 486/25 VIDEO BIOS ERRORS DURING POST
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0729.tb">0729.tb</A>  <tab to=T><TD> 843<BR><TD> AST Research Technical Bulletin #0729 01-03-92 AST PREMIUM II 386SX-20 AND DEC PCSA SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0730.tb">0730.tb</A>  <tab to=T><TD> 1113<BR><TD> AST Research Technical Bulletin #0730 01-06-92 AST SYSTEMS WITH PS/2 MOUSE PORT AND CH PRODUCTS ROLLER MOUSE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0731.tb">0731.tb</A>  <tab to=T><TD> 1301<BR><TD> AST Research Technical Bulletin #0731 01-06-92 AST 486 SYSTEMS AND MICROSOFT EXCEL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0732.tb">0732.tb</A>  <tab to=T><TD> 1718<BR><TD> AST Research Technical Bulletin #0732 11-04-91 AST PREMIUM II WITH 387SX MATH CO-PROCESSOR AND WINDOWS 3.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0733.tb">0733.tb</A>  <tab to=T><TD> 1297<BR><TD> AST Research Technical Bulletin #0733 01-06-92 WINFAX ERRORS AND MICROSOFT WORKS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0734.tb">0734.tb</A>  <tab to=T><TD> 1173<BR><TD> AST Research Technical Bulletin #0734 01-06-92 BRAVO 386SX-20 AND MICROSOFT WORD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0735.tb">0735.tb</A>  <tab to=T><TD> 1035<BR><TD> AST Research Technical Bulletin #0735 01-16-92 FASTBOARD 386 AND DR-DOS 6.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0736.tb">0736.tb</A>  <tab to=T><TD> 1289<BR><TD> AST Research Technical Bulletin #0736 01-21-92 PREMIUM 486/25 AND IMSI PET MOUSE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0737.tb">0737.tb</A>  <tab to=T><TD> 1320<BR><TD> AST Research Technical Bulletin #0737 01-23-92 PREMIUM EXEC AND MICROSOFT PS/2 MOUSE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0738.tb">0738.tb</A>  <tab to=T><TD> 818<BR><TD> AST Research Technical Bulletin #0738 01-23-92 PREMIUM EXEC AND MICROSOFT BALLPOINT MOUSE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0739.tb">0739.tb</A>  <tab to=T><TD> 750<BR><TD> AST Research Technical Bulletin #0739 11-11-91 AST PREMIUM 486/33 WITH GERMAN KEYBOARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0740.tb">0740.tb</A>  <tab to=T><TD> 1297<BR><TD> AST Research Technical Bulletin #0740 01-15-92 AST PREMIUM EXEC WITH PC HF WEATHER FAX SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0741.tb">0741.tb</A>  <tab to=T><TD> 837<BR><TD> AST Research Technical Bulletin #0741 01-22-92 PREMIUM EXEC WITH MICROSOFT EXCEL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0742.tb">0742.tb</A>  <tab to=T><TD> 1192<BR><TD> AST Research Technical Bulletin #0742 01-24-92 MICROSOFT WINDOWS 3.0 AND ENHANCED VGA MODES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0743.tb">0743.tb</A>  <tab to=T><TD> 1284<BR><TD> AST Research Technical Bulletin #0743 01-24-92 AST PREMIUM EXEC 386 AND HEALTHDYNE SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0744.tb">0744.tb</A>  <tab to=T><TD> 1649<BR><TD> AST Research Technical Bulletin #0744A 03-04-92 AST 486 BASED SYSTEMS WITH ADAPTEC 1540 AND 1542B
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0745.tb">0745.tb</A>  <tab to=T><TD> 1230<BR><TD> AST Research Technical Bulletin #0745 01-30-92 AST SYSTEMS AND AST 5251/11 TERMINAL EMULATION PROGRAM
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0747.tb">0747.tb</A>  <tab to=T><TD> 1123<BR><TD> AST Research Technical Bulletin #0747 02-21-92 RAMPAGEPLUS/MC AND DCA 3270/MC BOARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0748.tb">0748.tb</A>  <tab to=T><TD> 6987<BR><TD> AST Research Technical Bulletin #0748 03-18-92 BIOS SHADOWING IN AST SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0749.tb">0749.tb</A>  <tab to=T><TD> 856<BR><TD> AST Research Technical Bulletin #0749 03-27-92 INTERNATIONAL CHARACTER SETS AND EXTENDED TEXT MODES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0750.tb">0750.tb</A>  <tab to=T><TD> 4845<BR><TD> AST Research Technical Bulletin #0750 04-01-92 PREMIUM EXEC NI-CAD BATTERY INFORMATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0751.tb">0751.tb</A>  <tab to=T><TD> 1312<BR><TD> AST Research Technical Bulletin #0751 04-06-92 HARD DRIVE OPTION KITS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0752.tb">0752.tb</A>  <tab to=T><TD> 1393<BR><TD> AST Research Technical Bulletin #0752 04-08-92 VGA DRIVER SUPPORT FOR WINDOWS 3.1
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0753.tb">0753.tb</A>  <tab to=T><TD> 832<BR><TD> AST Research Technical Bulletin #0753 04-20-92 PREMIUM II 386/33 WITH BARR/3 SDLC BOARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0754.tb">0754.tb</A>  <tab to=T><TD> 1515<BR><TD> AST Research Technical Bulletin #0754 05-20-92 AST OFFICE ADVANTAGE 386SX/20 AND WINDOWS 3.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0755.tb">0755.tb</A>  <tab to=T><TD> 1074<BR><TD> AST Research Technical Bulletin #0755 05-28-92 THIRD FLOPPY DRIVE SUPPORT UNDER IBM OS/2 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0756.tb">0756.tb</A>  <tab to=T><TD> 1266<BR><TD> AST Research Technical Bulletin #0756 06-01-92 PREMIUM EXEC 386SX/20 AND BATTERY WATCH
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0757.tb">0757.tb</A>  <tab to=T><TD> 1731<BR><TD> AST Research Technical Bulletin #0757 06-09-92 AST PREMIUM 486/33 WITH SQL SERVER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0758.tb">0758.tb</A>  <tab to=T><TD> 1856<BR><TD> AST Research Technical Bulletin #0758 05-27-92 AST PREMIUM EXEC AND THE WESTERN DIGITAL 60MB DRIVE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0759.tb">0759.tb</A>  <tab to=T><TD> 839<BR><TD> AST Research Technical Bulletin #0759B 12-15-92 SIMM MATRIX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0760.tb">0760.tb</A>  <tab to=T><TD> 2318<BR><TD> AST Research Technical Bulletin #0760 06-10-92 ASTIVGA.EXE ON THE PREMIUM II AND BRAVO SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0761.tb">0761.tb</A>  <tab to=T><TD> 1399<BR><TD> AST Research Technical Bulletin #0761 06-24-92 AST PREMIUM EXEC 386SX-25 AND CARRIER CORP. SOFTWARE PROTECTION KEY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0762.tb">0762.tb</A>  <tab to=T><TD> 1499<BR><TD> AST Research Technical Bulletin #0762 07-01-92 AST 5251/11 ENHANCED AND PC GUARDIAN "VIRUS PREVENTION PLUS"
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0763.tb">0763.tb</A>  <tab to=T><TD> 974<BR><TD> AST Research Technical Bulletin #0763 07-16-92 AST MONOCHROME VGA MONITORS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0764.tb">0764.tb</A>  <tab to=T><TD> 1221<BR><TD> AST Research Technical Bulletin #0764 07-17-92 AST POWER PREMIUM SYSTEMS AND HARDWARE CURSOR IMPLEMENTATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0765.tb">0765.tb</A>  <tab to=T><TD> 1206<BR><TD> AST Research Technical Bulletin #0765 07-20-92 AST SYSTEMS AND NORTON DESKTOP
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0766.tb">0766.tb</A>  <tab to=T><TD> 1086<BR><TD> AST Research Technical Bulletin #0766 07-21-92 AST POWER PREMIUM AND PEN POINT SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0767.tb">0767.tb</A>  <tab to=T><TD> 1502<BR><TD> AST Research Technical Bulletin #0767 07-17-92 ADVANTAGE/BRAVO SYSTEMS AND AST/WINDOWS 3.1 LOGO SCREEN
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0768.tb">0768.tb</A>  <tab to=T><TD> 1114<BR><TD> AST Research Technical Bulletin #0768 07-23-92 AST PREMIUM II 386/33 AND TORUS ETHERNET ADAPTER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0769.tb">0769.tb</A>  <tab to=T><TD> 936<BR><TD> AST Research Technical Bulletin #0769A 11-10-92 AST SVGA 14" LOW RADIATION MONITOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0770.tb">0770.tb</A>  <tab to=T><TD> 1470<BR><TD> AST Research Technical Bulletin #0770 07-28-92 PREMIUM EXEC DATA FAX\SEND RECEIVE MODEM AND BITFAX SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0771.tb">0771.tb</A>  <tab to=T><TD> 992<BR><TD> AST Research Technical Bulletin #0771 08-12-92 AT&T UNIX AND AST SYSTEMS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0773.tb">0773.tb</A>  <tab to=T><TD> 1768<BR><TD> AST Research Technical Bulletin #0773 08-25-92 3COM COMPATIBILITY IN AST EISA SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0774.tb">0774.tb</A>  <tab to=T><TD> 380<BR><TD> AST Research Technical Bulletin #0774 09-01-92 AST POWER PREMIUM AND PAGEMAKER 4.0 IN 800X600X32K MODE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0775.tb">0775.tb</A>  <tab to=T><TD> 1003<BR><TD> AST Research Technical Bulletin #0775 09-01-92 AST BRAVO 386/486 SYSTEMS AND BOOT FAILURES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0776.tb">0776.tb</A>  <tab to=T><TD> 787<BR><TD> AST Research Technical Bulletin #0776 09-15-92 UPGRADING THE BRAVO-II 486/XX BIOS TO VERSION 1.22
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0777.tb">0777.tb</A>  <tab to=T><TD> 950<BR><TD> AST Research Technical Bulletin #0777 09-15-92 AST 5250 MCA ADAPTERS AND IBM MODEL P70 PORTABLE COMPUTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0778.tb">0778.tb</A>  <tab to=T><TD> 1966<BR><TD> AST Research Technical Bulletin #0778 09-22-92 BRAVO LC MEMORY UPGRADES WITH APPROVED VENDORS/PART NUMBERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0779.tb">0779.tb</A>  <tab to=T><TD> 1133<BR><TD> AST Research Technical Bulletin #0779 09-25-92 PREMIUM SE 4/33 AND MAYNARD INTERNAL TAPE ADAPTER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0780.tb">0780.tb</A>  <tab to=T><TD> 812<BR><TD> AST Research Technical Bulletin #0780 10-28-92 PREMIUM EXEC AND ULTRACOM 9600 MODEM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0781.tb">0781.tb</A>  <tab to=T><TD> 1187<BR><TD> AST Research Technical Bulletin #0781 11-02-92 PREMIUM 486/33E AND COGENT DATA TECHNOLOGIES E/MASTER II-AT/TP ETHERNET ADAPTER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0782.tb">0782.tb</A>  <tab to=T><TD> 839<BR><TD> AST Research Technical Bulletin #0782 11-05-92 ADVANTAGE! PLUS SETUP ANOMALIES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0783.tb">0783.tb</A>  <tab to=T><TD> 1117<BR><TD> AST Research Technical Bulletin #0783B 01-11-93 POWER EXEC WITH FILE TRANSFER AND LAPLINK SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0784.tb">0784.tb</A>  <tab to=T><TD> 1005<BR><TD> AST Research Technical Bulletin #0784 11-06-92 AST PREMIUM EXEC DATA/FAX INTERNATIONAL MODEMS AND WINFAXPRO 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0785.tb">0785.tb</A>  <tab to=T><TD> 1389<BR><TD> AST Research Technical Bulletin #0785 11-06-92 FASTRAM MEMORY BOARD FAILURES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0786.tb">0786.tb</A>  <tab to=T><TD> 950<BR><TD> AST Research Technical Bulletin #0786 11-16-92 POWER EXEC AND FLASH BIOS UPDATE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0787.tb">0787.tb</A>  <tab to=T><TD> 795<BR><TD> AST Research Technical Bulletin #0787 11-10-92 PREMIUM EXEC SYSTEMS AND IBM OS/2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0788.tb">0788.tb</A>  <tab to=T><TD> 1203<BR><TD> AST Research Technical Bulletin #0788 11-17-92 AST 486 SYSTEMS WITH IBM'S 5250 EMULATION CARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0789.tb">0789.tb</A>  <tab to=T><TD> 2070<BR><TD> AST Research Technical Bulletin #0789 11-19-92 PREMIUM 486/25 SYSTEMS AND NOVELL NON-DEDICATED NETWARE 2.2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0790.tb">0790.tb</A>  <tab to=T><TD> 1959<BR><TD> AST Research Technical Bulletin #0790 12-01-92 BRAVO 4/33 LC AND IRWIN TAPE BACKUP UNIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0791.tb">0791.tb</A>  <tab to=T><TD> 1148<BR><TD> AST Research Technical Bulletin #0791 11-20-92 ADVANTAGE! PLUS MINI-TOWER AND I/O PORT CONFIGURATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0792.tb">0792.tb</A>  <tab to=T><TD> 913<BR><TD> AST Research Technical Bulletin #0792 12-04-92 PREMIUM EXEC 3/25C AND CENTRAL POINT PC COMMUTE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0793.tb">0793.tb</A>  <tab to=T><TD> 804<BR><TD> AST Research Technical Bulletin #0793 12-08-92 FASTBOARD/386 WITH RAM PARITY ERRORS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0794.tb">0794.tb</A>  <tab to=T><TD> 1270<BR><TD> AST Research Technical Bulletin #0794 12-09-92 POWER PREMIUM AND DALLAS SEMICONDUCTOR DS1255
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0795.tb">0795.tb</A>  <tab to=T><TD> 1081<BR><TD> AST Research Technical Bulletin #0795 12-10-92 PREMIUM II 386SX/20 AND XENIX 2.3 VERSION 4
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0796.tb">0796.tb</A>  <tab to=T><TD> 1112<BR><TD> AST Research Technical Bulletin #0796 12-09-92 PREMIUM 386C WITH 386 TO THE MAX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0797.tb">0797.tb</A>  <tab to=T><TD> 968<BR><TD> AST Research Technical Bulletin #0797 12-16-92 POWER PREMIUM AND MICROSOFT C/C++
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0798.tb">0798.tb</A>  <tab to=T><TD> 1055<BR><TD> AST Research Technical Bulletin #0798 12-21-92 ADVANTAGE! SYSTEMS AND MICROSOFT PUBLISHER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0799.tb">0799.tb</A>  <tab to=T><TD> 1110<BR><TD> AST Research Technical Bulletin #0799 12-16-92 BRAVO AND ADVANTAGE MEMORY ACCESS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0800.tb">0800.tb</A>  <tab to=T><TD> 1153<BR><TD> AST Research Technical Bulletin #0800 12-30-62 POWER EXEC WITH STACKER AND NORTON DESKTOP
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0801.tb">0801.tb</A>  <tab to=T><TD> 1090<BR><TD> AST Research Technical Bulletin #0801 01-06-93 BRAVO 486/33 AND PIXEL WORKS RA-1280
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0802.tb">0802.tb</A>  <tab to=T><TD> 1875<BR><TD> AST Research Technical Bulletin #0802 01-04-93 POWER EXEC MODEM SOFTWARE AND EMM386.EXE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0803.tb">0803.tb</A>  <tab to=T><TD> 1298<BR><TD> AST Research Technical Bulletin #0803 12-30-92 EISA SYSTEMS WITH THE RACAL INTERLAN CARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0804.tb">0804.tb</A>  <tab to=T><TD> 1087<BR><TD> AST Research Technical Bulletin #0804 01-11-93 POWER EXEC WITH SUSPEND AND PARALLEL PRINTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0805.tb">0805.tb</A>  <tab to=T><TD> 918<BR><TD> AST Research Technical Bulletin #0805 01-11-93 POWER EXEC AND "MOUSE CONNECTED TO..." FIELD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0806.tb">0806.tb</A>  <tab to=T><TD> 841<BR><TD> AST Research Technical Bulletin #0806 01-11-93 POWER EXEC AND RECEIVING DATA COMMUNICATIONS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0807.tb">0807.tb</A>  <tab to=T><TD> 550<BR><TD> AST Research Technical Bulletin #0807 01-11-93 POWER EXEC, EXTERNAL KEYBOARDS AND DIAGNOSTIC PROGRAMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0808.tb">0808.tb</A>  <tab to=T><TD> 732<BR><TD> AST Research Technical Bulletin #0808 01-11-93 POWER EXEC SL AND 12:05 ERROR MESSAGE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0809.tb">0809.tb</A>  <tab to=T><TD> 906<BR><TD> AST Research Technical Bulletin #0809 01-11-93 POWER EXEC SL COM PORT COMBINATIONS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0810.tb">0810.tb</A>  <tab to=T><TD> 666<BR><TD> AST Research Technical Bulletin #0810 01-11-93 POWER EXEC AND FULL POST TEST
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0811.tb">0811.tb</A>  <tab to=T><TD> 605<BR><TD> AST Research Technical Bulletin #0811 01-11-93 POWER EXEC SETUP FIELD CHANGES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0812.tb">0812.tb</A>  <tab to=T><TD> 1410<BR><TD> AST Research Technical Bulletin #0812 01-21-93 PREMIUM EXEC SUSPEND MODE AND BITFAX SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="ASTRESEARCH/0813.tb">0813.tb</A>  <tab to=T><TD> 1204<BR><TD> AST Research Technical Bulletin #0813 02-02-93 CUPID 486/33 SYSTEMS AND INTEL OVERDRIVE PROCESSOR UPGRADES
+</TABLE><P><TABLE WIDTH=100%><TR><TD ALIGN=RIGHT><SMALL>There are 530 files for a total of 736,093 bytes.</SMALL></TABLE>
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+<H1>Computer Textfiles: AST Research Technical Bulletins</H1>
+<P>
+<TABLE WIDTH=100%>
+<TD BGCOLOR=#000000><FONT COLOR=#FFFFFF><B>Filename</B><BR></FONT></TD>
+<TD BGCOLOR=#002200><FONT COLOR=#FFFFFF><B>Size</B><BR></FONT></TD>
+<TD BGCOLOR=#004400><FONT COLOR=#FFFFFF><B>Description of the Textfile</B><BR></TD></TR>
+
+<tab indent=60 id=T><br>
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0001a.tb">0001a.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0001A 5-18-84 COMPATIBLE CLOCK BATTERIES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0002.tb">0002.tb</A>  <tab to=T><TD> 1152<BR><TD> AST Research Technical Bulletin #0002 4-16-84 POWER-ON SELF TEST ERROR ON XT AND PORTABLE COMPUTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0003a.tb">0003a.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0003A 4-30-84 MEMORY SWITCH ERROR IN IBM GUIDE 
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0004b.tb">0004b.tb</A>  <tab to=T><TD> 3968<BR><TD> AST Research Technical Bulletin #0004B 3-19-85 D-RAM CHIP COMPATIBILITY FOR MULTIFUNCTION CARDS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0005.tb">0005.tb</A>  <tab to=T><TD> 2042<BR><TD> AST Research Technical Bulletin #0005 4-23-84 SETTING CLOCK FREQUENCY FOR SIXPAKPLUS FASTER OR SLOWER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0006.tb">0006.tb</A>  <tab to=T><TD> 1792<BR><TD> AST Research Technical Bulletin #0006 4-30-84 MONOGRAPHPLUS CAUTION STATEMENT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0007.tb">0007.tb</A>  <tab to=T><TD> 1664<BR><TD> AST Research Technical Bulletin #0007 4-13-84 CABLE CONNECTION FOR AST PARALLEL PORT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0008a.tb">0008a.tb</A>  <tab to=T><TD> 1289<BR><TD> AST Research Technical Bulletin #0008A 6-25-84 MEGAPLUS II GAME ADAPTER PROBLEM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0009.tb">0009.tb</A>  <tab to=T><TD> 773<BR><TD> AST Research Technical Bulletin #0009 4-13-84 SIXPAKPLUS WITHOUT PRINTER OPTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0010.tb">0010.tb</A>  <tab to=T><TD> 1591<BR><TD> AST Research Technical Bulletin #0010 4-13-84 IRQ-7 PARALLEL PORT CONTENTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0011.tb">0011.tb</A>  <tab to=T><TD> 740<BR><TD> AST Research Technical Bulletin #0011 5-1-84 SIXPAKPLUS VER 1.0 SCHEMATIC ERROR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0012.tb">0012.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0012 5-16-84 MEGAPLUS II IRQ SILKSCREEN CONFLICT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0013a.tb">0013a.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0013A 8-31-84 3.30 WORDSTAR PATCH FOR IBM PC'S
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0014.tb">0014.tb</A>  <tab to=T><TD> 1124<BR><TD> AST Research Technical Bulletin #0014 6-1-84 MULTIFUNCTION FEATURE SUMMARY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0015a.tb">0015a.tb</A>  <tab to=T><TD> 1664<BR><TD> AST Research Technical Bulletin #0015A 9-19-84 INCOMPATIBILITY OF COLUMBIA'S PARALLEL PORT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0016.tb">0016.tb</A>  <tab to=T><TD> 2943<BR><TD> AST Research Technical Bulletin #0016 6-7-84 FREQUENTLY-ASKED QUESTIONS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0017.tb">0017.tb</A>  <tab to=T><TD> 2508<BR><TD> AST Research Technical Bulletin #0017 6-8-84 APPROVED PARTS FOR OPTIONAL SERIAL PORTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0018.tb">0018.tb</A>  <tab to=T><TD> 705<BR><TD> AST Research Technical Bulletin #0018 6-11-84 SIXPAKPLUS SWITCH SETTING & PLUG POSITION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0019a.tb">0019a.tb</A>  <tab to=T><TD> 2048<BR><TD> AST Research Technical Bulletin #0019A 7-16-84 IBM PC ERROR CODES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0020.tb">0020.tb</A>  <tab to=T><TD> 805<BR><TD> AST Research Technical Bulletin #0020 6-18-84 COM 2 SELECTION IN IBM PC-2 EARLY MODELS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0021.tb">0021.tb</A>  <tab to=T><TD> 2048<BR><TD> AST Research Technical Bulletin #0021 6-22-84 USING A TALLGRASS HARDFILE AS THE PC-NET FILE SERVER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0022.tb">0022.tb</A>  <tab to=T><TD> 1457<BR><TD> AST RESEARCH TECHNICAL BULLETIN TB-0022 6-18-84 GAME SIGNAL LINE CONFIGURATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0023a.tb">0023a.tb</A>  <tab to=T><TD> 410<BR><TD> AST Research Technical Bulletin #0023A 4-1-85 IBM DISPLAYWRITE SERIES COMPATIBILITY WITH PCNET
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0024.tb">0024.tb</A>  <tab to=T><TD> 859<BR><TD> AST Research Technical Bulletin #0024 6-22-84 CONNECTING UDS MODEMS WITH CC432 BOARDS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0025.tb">0025.tb</A>  <tab to=T><TD> 1260<BR><TD> AST Research Technical Bulletin #0025 7-9-84 PCNET II TERMINATOR ALTERNATIVE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0026a.tb">0026a.tb</A>  <tab to=T><TD> 512<BR><TD> AST Research Technical Bulletin #0026A 8-20-84 MONOGRAPH COMPATIBILITY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0027.tb">0027.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0027 7-9-84 ERRORS DURING IBM FORMAT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0028.tb">0028.tb</A>  <tab to=T><TD> 1152<BR><TD> AST Research Technical Bulletin #0028 7-13-84 BASIC'S AVAILABLE MEMORY DISCREPANCY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0029.tb">0029.tb</A>  <tab to=T><TD> 1792<BR><TD> AST Research Technical Bulletin #0029 7-16-84 AST-PCNET PRINT SPOOLER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0030.tb">0030.tb</A>  <tab to=T><TD> 896<BR><TD> AST Research Technical Bulletin #0030 7-17-84 DMA CHANNEL ASSIGNMENT IN THE IBM PC AND XT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0031.tb">0031.tb</A>  <tab to=T><TD> 2048<BR><TD> AST Research Technical Bulletin #0031 7-17-84 AST MONOGRAPHPLUS TECHNICAL REFERENCE MANUAL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0032a.tb">0032a.tb</A>  <tab to=T><TD> 2048<BR><TD> AST Research Technical Bulletin #0032A 4-15-85 5251 VERSION 2.1 INTERRUPT REQUEST SELECTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0033a.tb">0033a.tb</A>  <tab to=T><TD> 1920<BR><TD> AST Research Technical Bulletin #0033A 9-4-84 AST-5251 VER. 2.1 ADDRESSING
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0034.tb">0034.tb</A>  <tab to=T><TD> 1536<BR><TD> AST Research Technical Bulletin #0034 7-18-84 HARDWARE INTERRUPT ASSIGNMENT IN THE IBM PC AND XT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0035.tb">0035.tb</A>  <tab to=T><TD> 2497<BR><TD> AST Research Technical Bulletin #0035 7-25-84 SWITCH SETTINGS FOR THE COMPAQ PORTABLE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0036.tb">0036.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0036 7-25-84 TESTING OF THE GAME PORT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0039.tb">0039.tb</A>  <tab to=T><TD> 1920<BR><TD> AST Research Technical Bulletin #0039 7-31-84 MONOGRAPHPLUS WITH AMDEK MD#310A
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0040.tb">0040.tb</A>  <tab to=T><TD> 584<BR><TD> AST Research Technical Bulletin #0040 8-9-84 SIXPAK GAME PORT SCHEMATIC ERROR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0043.tb">0043.tb</A>  <tab to=T><TD> 2306<BR><TD> AST Research Technical Bulletin #0043 8-20-84 PATCHING PC DOS 2.1 FOR ADDITIONAL DRIVES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0045.tb">0045.tb</A>  <tab to=T><TD> 1920<BR><TD> AST Research Technical Bulletin #0045 8-21-84 PATCHING WORDSTAR FOR PRINTING TO ALTERNATE PORTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0046.tb">0046.tb</A>  <tab to=T><TD> 1408<BR><TD> AST Research Technical Bulletin #0046 8-21-84 REBOOTING AN IBM PC FROM A BATCH FILE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0047.tb">0047.tb</A>  <tab to=T><TD> 1024<BR><TD> AST Research Technical Bulletin #0047 8-21-84 AST-PCOX VERSION 1.2 SOFTWARE WITH 4331 MODEL HOSTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0049a.tb">0049a.tb</A>  <tab to=T><TD> 2365<BR><TD> AST Research Technical Bulletin #0049A 4-1-85 SLOW PRINTING WITH SUPERSPOOL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0050.tb">0050.tb</A>  <tab to=T><TD> 632<BR><TD> AST Research Technical Bulletin #0050 10-24-84 DIAGNOSTIC TESTING OF THE PARALLEL PORT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0051.tb">0051.tb</A>  <tab to=T><TD> 768<BR><TD> AST Research Technical Bulletin #0051 10-5-84 FRAMEWORK AND AST NEWLINE FOR THE MONOGRAPHPLUS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0052a.tb">0052a.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0052A 11-8-84 CLOCK/CALENDAR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0053a.tb">0053a.tb</A>  <tab to=T><TD> 1792<BR><TD> AST Research Technical Bulletin #0053A 11-8-84 CORRECTING THE TIME/DATE OF THE AST CLOCK*
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0055.tb">0055.tb</A>  <tab to=T><TD> 9635<BR><TD> AST Research Technical Bulletin #0055 9-21-84 FAULT ISOLATION OF THE IBM PC-1
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0059.tb">0059.tb</A>  <tab to=T><TD> 1152<BR><TD> AST Research Technical Bulletin #0059 9-26-84 MONOGRAPH COMPATIBILITY WITH MS WORD 
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0061.tb">0061.tb</A>  <tab to=T><TD> 512<BR><TD> AST Research Technical Bulletin #0061 10-5-84 ASTCLOCK AND COMPAQ VERSION 2.11 CONTENTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0062.tb">0062.tb</A>  <tab to=T><TD> 1024<BR><TD> AST Research Technical Bulletin #0062 10-9-84 SUPERSPOOL AND LPT2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0064.tb">0064.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0064 10-11-84 SERIAL PORT WRAP PLUG
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0065.tb">0065.tb</A>  <tab to=T><TD> 1522<BR><TD> AST Research Technical Bulletin #0065 11-7-84 AT MOTHERBOARD MEMORY CONFIGURATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0066.tb">0066.tb</A>  <tab to=T><TD> 1280<BR><TD> AST Research Technical Bulletin #0066 11-27-84 SUPERSPOOL AND THE 3270 PC CONTROL PROGRAM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0067.tb">0067.tb</A>  <tab to=T><TD> 3290<BR><TD> AST Research Technical Bulletin #0067 11-16-84 CORRECTIONS TO THE ADVANTAGE! USER'S MANUAL VERSION 1.00
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0071.tb">0071.tb</A>  <tab to=T><TD> 7224<BR><TD> AST Research Technical Bulletin #0071 12-10-84 COMPATIBILITY OF AST PRODUCTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0073.tb">0073.tb</A>  <tab to=T><TD> 775<BR><TD> AST Research Technical Bulletin #0073 3-5-85 I/O MINI PARALLEL PORT UPGRADE KIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0074.tb">0074.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0074 1-28-85 CC-832/4-PORT ASYNC COMPATIBILITY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0075.tb">0075.tb</A>  <tab to=T><TD> 884<BR><TD> AST Research Technical Bulletin #0075 3-5-85 NULL MODEM CONFIGURATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0076.tb">0076.tb</A>  <tab to=T><TD> 679<BR><TD> AST Research Technical Bulletin #0076 3-11-85 I/O MINI SERIAL PORT #2 UPGRADE KIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0077a.tb">0077a.tb</A>  <tab to=T><TD> 2176<BR><TD> AST Research Technical Bulletin #0077A 7-2-85 POWER CONSUMPTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0078.tb">0078.tb</A>  <tab to=T><TD> 2200<BR><TD> AST Research Technical Bulletin #0078 4-1-85 AST PRINTED CIRCUIT BOARD DIMENSIONS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0079.tb">0079.tb</A>  <tab to=T><TD> 1024<BR><TD> AST Research Technical Bulletin #0079 4-1-85 PROPER USE OF THE AST MP MINI
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0080.tb">0080.tb</A>  <tab to=T><TD> 14548<BR><TD> AST Research Technical Bulletin #0080 4-2-85 QUICK REFERENCE: ADVANTAGE!
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0084.tb">0084.tb</A>  <tab to=T><TD> 1152<BR><TD> AST Research Technical Bulletin #0084 5-3-85 MGO 123/PREVU AND MAX 12E
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0089.tb">0089.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0089 5-28-85 ADVANTAGE GAME PORT UPGRADE KIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0090.tb">0090.tb</A>  <tab to=T><TD> 768<BR><TD> AST Research Technical Bulletin #0090 5-28-85 ADVANTAGE SERIAL PORT #2 UPGRADE KIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0102.tb">0102.tb</A>  <tab to=T><TD> 708<BR><TD> AST Research Technical Bulletin #0102 7-1-85 MONOGRAPHPLUS SERIAL PORT UPGRADE KIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0103.tb">0103.tb</A>  <tab to=T><TD> 512<BR><TD> AST Research Technical Bulletin #0103 7-2-85 REACH!/SMARTCOM COMPATIBILITY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0113.tb">0113.tb</A>  <tab to=T><TD> 1408<BR><TD> AST Research Technical Bulletin #0113 9-06-85 PCNET (COAX) SELFTEST PROBLEM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0116.tb">0116.tb</A>  <tab to=T><TD> 454<BR><TD> AST Research Technical Bulletin #0116 10-22-85 RAMPAGE! OPERATION IN IBM-3270 PC
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0117.tb">0117.tb</A>  <tab to=T><TD> 642<BR><TD> AST Research Technical Bulletin #0117 11-01-85 AST-PCOX AND IBM'S ENHANCED COLOR GRAPHICS ADAPTER
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0289.tb">0289.tb</A>  <tab to=T><TD> 982<BR><TD> AST Research Technical Bulletin #0289 08-05-87 SIXPAKPREMIUM/EGA USER'S MANUAL
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0295.tb">0295.tb</A>  <tab to=T><TD> 3128<BR><TD> AST Research Technical Bulletin #0295 9-3-87 AST TURBOLASER LASER PRINTER CONTROLLER IDENTIFICATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0296.tb">0296.tb</A>  <tab to=T><TD> 451<BR><TD> AST Research Technical Bulletin #0296 9-22-87 HOTSHOT 286 AND REX.SYS 1.0
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0304.tb">0304.tb</A>  <tab to=T><TD> 1024<BR><TD> AST Research Technical Bulletin #0304 9-22-87 AST 3G/PLUS AND BASIC BORDER COLORS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0311.tb">0311.tb</A>  <tab to=T><TD> 512<BR><TD> AST Research Technical Bulletin #0311 9-29-87 AST STARPORT HEAT CAUTION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0312.tb">0312.tb</A>  <tab to=T><TD> 1664<BR><TD> AST Research Technical Bulletin #0312 9-29-87 FOURPORT/XN INSTALLATION
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0315.tb">0315.tb</A>  <tab to=T><TD> 640<BR><TD> AST Research Technical Bulletin #0315 10-8-87 AST-PCNET / AT & T 6300+
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0324.tb">0324.tb</A>  <tab to=T><TD> 886<BR><TD> AST Research Technical Bulletin #0324 10-24-87 5250 ALTERNATE CONFIGURATION FILENAME
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0327.tb">0327.tb</A>  <tab to=T><TD> 487<BR><TD> AST Research Technical Bulletin #0327 10-24-87 PCOX/COMPAQ
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0328.tb">0328.tb</A>  <tab to=T><TD> 594<BR><TD> AST Research Technical Bulletin #0328 10-25-87 3270/FTS-C/PROBLEMS WITH TSO
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0329.tb">0329.tb</A>  <tab to=T><TD> 445<BR><TD> AST Research Technical Bulletin #0329 10-26-87 CROSSTALK/PREMIUM 286
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0332.tb">0332.tb</A>  <tab to=T><TD> 1216<BR><TD> AST Research Technical Bulletin #0332 10-22-87 AST-RSN/AST-PREMIUM 286
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0389.tb">0389.tb</A>  <tab to=T><TD> 3377<BR><TD>  AST Research Technical Bulletin #0389 03-01-88 TURBOLASER/PS EL/LPC UPGRADE KIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0428.tb">0428.tb</A>  <tab to=T><TD> 2660<BR><TD> AST Research Technical Bulletin #0428B 04-04-90 PREMIUM/286 AND 386 THIRD FLOPPY SUPPORT
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0457.tb">0457.tb</A>  <tab to=T><TD> 3085<BR><TD> AST Research Technical Bulletin #0457A 02-21-90 AST-3270/FTS-C FUNCTIONAL ISSUES
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0513.tb">0513.tb</A>  <tab to=T><TD> 3235<BR><TD> AST Research Technical Bulletin #0513F 11-15-90 AST-5251/11 FUNCTIONAL ISSUES
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0601.tb">0601.tb</A>  <tab to=T><TD> 880<BR><TD> AST Research Technical Bulletin #0601 01-19-90 REMOVAL OF NON-DOS PARTITIONS FROM AT EMBEDDED DRIVES
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0606.tb">0606.tb</A>  <tab to=T><TD> 792<BR><TD> AST Research Technical Bulletin #0606 01-29-90 AST MS-DOS AND IOMEGA BERNOULLI BOX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0607.tb">0607.tb</A>  <tab to=T><TD> 1049<BR><TD> AST Research Technical Bulletin #0607 01-29-90 ASTCACHE AND 3.5" FLOPPY DRIVES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0608.tb">0608.tb</A>  <tab to=T><TD> 847<BR><TD> AST Research Technical Bulletin #0608A 02-26-90 ASTEMM.SYS AND MICROSOFT EXCEL 2.1
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0611.tb">0611.tb</A>  <tab to=T><TD> 939<BR><TD> AST Research Technical Bulletin #0611 02-08-90 WORKSTATION/286 WITH NETWORTH ETHERNEXT CARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0612.tb">0612.tb</A>  <tab to=T><TD> 840<BR><TD> AST Research Technical Bulletin #0612 02-14-90 WORKSTATION/286 AND PROTEON PRONET 10 CARDS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0613.tb">0613.tb</A>  <tab to=T><TD> 3108<BR><TD> AST Research Technical Bulletin #0613A 04-19-90 FASTBOARD 486/25 UPGRADE REQUIREMENTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0614.tb">0614.tb</A>  <tab to=T><TD> 2400<BR><TD> AST Research Technical Bulletin #0614 03-02-90 PREVIEW I/O PARALLEL PORT ADDRESS CORRECTIONS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0615.tb">0615.tb</A>  <tab to=T><TD> 1124<BR><TD> AST Research Technical Bulletin #0615 03-02-90 CONFIGURING FLOPPY DRIVES FOR AST SYSTEMS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0618.tb">0618.tb</A>  <tab to=T><TD> 829<BR><TD> AST Research Technical Bulletin #0618 03-14-90 FASTBOARD 386 AND MICROSOFT WORKS 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0619.tb">0619.tb</A>  <tab to=T><TD> 1798<BR><TD> AST Research Technical Bulletin #0619 03-20-90 RUNNING COMPATIBILITY TESTS ON THE VGA PLUS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0620.tb">0620.tb</A>  <tab to=T><TD> 865<BR><TD> AST Research Technical Bulletin #0620 03-27-90 BRAVO/386SX WITH TIARA LAN ADAPTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0621.tb">0621.tb</A>  <tab to=T><TD> 962<BR><TD> AST Research Technical Bulletin #0621 04-04-90 WD7000-ASC SCSI CARDS AND PREMIUM 386/25 AND 386/33
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0622.tb">0622.tb</A>  <tab to=T><TD> 1273<BR><TD> AST Research Technical Bulletin #0622 04-12-90 SOFTWARE TOOLWORKS PROGRAMS AND PREMIUM COMPUTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0623.tb">0623.tb</A>  <tab to=T><TD> 1073<BR><TD> AST Research Technical Bulletin #0623A 02-08-91 COMPUTONE INTELEPORT 8 CARDS AND PREMIUM 386/25 AND 386/33
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0624.tb">0624.tb</A>  <tab to=T><TD> 667<BR><TD> AST Research Technical Bulletin #0624 04-16-90 IBM OS/2 1.1, ESDI DRIVES AND PREMIUM 386C COMPUTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0625.tb">0625.tb</A>  <tab to=T><TD> 2083<BR><TD> AST Research Technical Bulletin #0625A 05/16/90 AST 5250 GATEWAY COMPATIBILITY ISSUES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0626.tb">0626.tb</A>  <tab to=T><TD> 458<BR><TD> AST Research Technical Bulletin #0626 05-02-90 CONFIGURING AST 5251/11 ENHANCED AS A 3196 TERMINAL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0627.tb">0627.tb</A>  <tab to=T><TD> 1237<BR><TD> AST Research Technical Bulletin #0627 05/31/90 INCOMPATIBLE DRAMS FOR RAMPAGEPLUS/286
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0628.tb">0628.tb</A>  <tab to=T><TD> 711<BR><TD> AST Research Technical Bulletin #0628 06-29-90 USE OF ASTEMM.SYS WITH SUPERCALC 5
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0629.tb">0629.tb</A>  <tab to=T><TD> 1408<BR><TD> AST Research Technical Bulletin #0629 06-27-90 AUTOSENSING OPERATION OF THE VGA PLUS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0630.tb">0630.tb</A>  <tab to=T><TD> 790<BR><TD> AST Research Technical Bulletin #0630 07-01-90 BRAVO 386SX/DEC DEPCA CARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0631.tb">0631.tb</A>  <tab to=T><TD> 707<BR><TD> AST Research Technical Bulletin #0631 07-06-90 AST-TURBOSCAN COMPATIBILITY ISSUE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0632.tb">0632.tb</A>  <tab to=T><TD> 825<BR><TD> AST Research Technical Bulletin #0632 08-13-90 PREMIUM 386SX/16 AND VERSACAD 386
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0633.tb">0633.tb</A>  <tab to=T><TD> 753<BR><TD> AST Research Technical Bulletin #0633 08-15-90 AST SYSTEMS/DIGITAL RESEARCH FlexOS V2.2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0634.tb">0634.tb</A>  <tab to=T><TD> 5095<BR><TD> AST Research Technical Bulletin #0634 08-23-90 AST SHADOW BIOS MEMORY ADDRESSES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0635.tb">0635.tb</A>  <tab to=T><TD> 715<BR><TD> AST Research Technical Bulletin #0635 09-17-90 PREMIUM 386C SYSTEMS WITH PHILLIPS CD ROM PLAYER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0636.tb">0636.tb</A>  <tab to=T><TD> 1553<BR><TD> AST Research Technical Bulletin #0636 10-02-90 PREMIUM 486/25 - NOVELL AND IBM TOKEN RING CARDS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0637.tb">0637.tb</A>  <tab to=T><TD> 896<BR><TD> AST Research Technical Bulletin #0637 10-04-90 AST COMPUTERS AND EVEREX TAPE DRIVES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0638.tb">0638.tb</A>  <tab to=T><TD> 902<BR><TD> AST Research Technical Bulletin #0638 10-10-90 VGA PLUS AND WESTERN DIGITAL ETHERCARD PLUS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0639.tb">0639.tb</A>  <tab to=T><TD> 772<BR><TD> AST Research Technical Bulletin #0639 10-25-90 SMC ARCNET AND 5251/11-A ENHANCED
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0640.tb">0640.tb</A>  <tab to=T><TD> 930<BR><TD> AST Research Technical Bulletin #0640 11-05-90 MULTIPLE IPX VERSIONS AND 5250 GATEWAY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0641.tb">0641.tb</A>  <tab to=T><TD> 1513<BR><TD> AST Research Technical Bulletin #0641 11-08-90 NEW 386SX/16 PROCESSOR BOARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0642.tb">0642.tb</A>  <tab to=T><TD> 2533<BR><TD> AST Research Technical Bulletin #0642 11-12-90 VGA MODES SUPPORTED ON AST VGA PRODUCTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0643.tb">0643.tb</A>  <tab to=T><TD> 1109<BR><TD> AST Research Technical Bulletin #0643 11-06-90 RAMPAGEPLUS/286 AND ZENITH COMPUTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0644.tb">0644.tb</A>  <tab to=T><TD> 1668<BR><TD> AST Research Technical Bulletin #0644 11-12-90 AST COMPUTERS AND CHECKIT V3.0 SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0645.tb">0645.tb</A>  <tab to=T><TD> 796<BR><TD> AST Research Technical Bulletin #0645 11-13-90 NOVELL NETBIOS ISSUES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0646.tb">0646.tb</A>  <tab to=T><TD> 1204<BR><TD> AST Research Technical Bulletin #0646 11-15-90 TAPE DRIVE MOUNTING PROBLEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0647.tb">0647.tb</A>  <tab to=T><TD> 626<BR><TD> AST Research Technical Bulletin #0647 10-11-90 AST PREMIUM/386C WITH 16 MEGABYTES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0648.tb">0648.tb</A>  <tab to=T><TD> 706<BR><TD> AST Research Technical Bulletin #0648 10-23-90 BRAVO/286 WITH 3270 EMULATION SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0649.tb">0649.tb</A>  <tab to=T><TD> 6341<BR><TD> AST Research Technical Bulletin #0649 11-14-90 WINDOWS 3.0 INSTALLATION INFORMATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0650.tb">0650.tb</A>  <tab to=T><TD> 706<BR><TD> AST Research Technical Bulletin #0650 11-26-90 AST PREMIUM WORKSTATION/286 MEMORY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0651.tb">0651.tb</A>  <tab to=T><TD> 1522<BR><TD> AST Research Technical Bulletin #0651 12-03-90 BRAVO/386SX - SEAGATE 157A
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0652.tb">0652.tb</A>  <tab to=T><TD> 764<BR><TD> AST Research Technical Bulletin #0652 12-11-90 STARTEC BALUN HUB WITH AST5251/11 EMULATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0653.tb">0653.tb</A>  <tab to=T><TD> 992<BR><TD> AST Research Technical Bulletin #0653 12-14-90 BRAVO/486 CONFIDENCE TEST
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0654.tb">0654.tb</A>  <tab to=T><TD> 1778<BR><TD> AST Research Technical Bulletin #0654 12-21-90 PREMIUM 386/16 WITH MATH CO-PROCESSOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0655.tb">0655.tb</A>  <tab to=T><TD> 585<BR><TD> AST Research Technical Bulletin #0655A 02-04-91 AST MS OS/2 VERSION 1.2 AND MONOCHROME VIDEO ADAPTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0656.tb">0656.tb</A>  <tab to=T><TD> 841<BR><TD> AST Research Technical Bulletin #0656A 02-04-91 CATAMOUNT ATC-16 TAPE CONTROLLER AND CUPID SYSTEMS WITH CHIPS & TECHNOLOGY CHIP SET 
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0657.tb">0657.tb</A>  <tab to=T><TD> 727<BR><TD> AST Research Technical Bulletin #0657 01/17/91 PC SUPPORT VERSION 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0658.tb">0658.tb</A>  <tab to=T><TD> 845<BR><TD> AST Research Technical Bulletin #0658 01-21-91 VGA PLUS - IRQ 2 CONFLICTS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0659.tb">0659.tb</A>  <tab to=T><TD> 1112<BR><TD> AST Research Technical Bulletin #0659 01-30-91 RUNNING 3270 FTS UNDER PROFS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0660.tb">0660.tb</A>  <tab to=T><TD> 590<BR><TD> AST Research Technical Bulletin #0660 01-30-91 AST 3270 COAX II WITH WEITEK MATH CO-PROCESSOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0661.tb">0661.tb</A>  <tab to=T><TD> 908<BR><TD> AST Research Technical Bulletin #0661 01-30-91 AST COAX II-CUT AND WD-1007A CONTROLLER CONFLICT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0662.tb">0662.tb</A>  <tab to=T><TD> 697<BR><TD> AST Research Technical Bulletin #0662 01-31-91 PREMIUM COMPUTER WITH NASHUA DISKETTES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0663.tb">0663.tb</A>  <tab to=T><TD> 821<BR><TD> AST Research Technical Bulletin #0663 02-01-91 BRAVO/386SX AND KEYBOARD ERRORS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0664.tb">0664.tb</A>  <tab to=T><TD> 810<BR><TD> AST Research Technical Bulletin #0664 02-08-91 PREMIUM COMPUTERS AND MICROSPEED PC-TRACKBALL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0665.tb">0665.tb</A>  <tab to=T><TD> 1326<BR><TD> AST Research Technical Bulletin #0665 02-14-91 GUIDELINES FOR USING NOVELL'S COMPSURF UTILITY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0666.tb">0666.tb</A>  <tab to=T><TD> 1322<BR><TD> AST Research Technical Bulletin #0666 02-13-91 NOVELL COMPSURF WITH ESDI DRIVES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0667.tb">0667.tb</A>  <tab to=T><TD> 738<BR><TD> AST Research Technical Bulletin #0667 02-18-91 PROTEON 16/4MB TOKEN RING ADAPTER (MODEL 1390) AND OS/2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0668.tb">0668.tb</A>  <tab to=T><TD> 1257<BR><TD> AST Research Technical Bulletin #0668 03-06-91 PREMIUM EXEC BATTERY PACK PRESSURE PAD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0669.tb">0669.tb</A>  <tab to=T><TD> 1325<BR><TD> AST Research Technical Bulletin #0669 03-08-91 PREMIUM 386SX-16 WITH PARADISE 8514/A PLUS CARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0670.tb">0670.tb</A>  <tab to=T><TD> 718<BR><TD> AST Research Technical Bulletin #0670 03-25-91 BRAVO/386SX AND THOMAS CONARD TC 4035
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0671.tb">0671.tb</A>  <tab to=T><TD> 907<BR><TD> AST Research Technical Bulletin #0671 04-05-91 PREMIUM II WITH IBM'S 3270 ENTRY LEVEL PROGRAM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0672.tb">0672.tb</A>  <tab to=T><TD> 656<BR><TD> AST Research Technical Bulletin #0672 04-15-91 BRAVO/486 WITH SQL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0673.tb">0673.tb</A>  <tab to=T><TD> 668<BR><TD> AST Research Technical Bulletin #0673 05-02-91 DEPCA DE-200A CARD AND ASTEMM 4.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0674.tb">0674.tb</A>  <tab to=T><TD> 764<BR><TD> AST Research Technical Bulletin #0674 05-02-91 AST PREMIUM II 386SX/20 WITH ORACLE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0675.tb">0675.tb</A>  <tab to=T><TD> 20497<BR><TD> AST Research Technical Bulletin #0675 05-02-91 CONFIGURATION FILES FOR ISA OPTION BOARDS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0676.tb">0676.tb</A>  <tab to=T><TD> 669<BR><TD> AST Research Technical Bulletin #0676 05-02-91 PREMIUM/386-C SERIAL PORT CONFLICT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0677.tb">0677.tb</A>  <tab to=T><TD> 648<BR><TD> AST Research Technical Bulletin #0677 05-02-91 GIGATREND TAPE BACK-UP UNIT AND PREMIUM 386/33
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0678.tb">0678.tb</A>  <tab to=T><TD> 1404<BR><TD> AST Research Technical Bulletin #0678A 02-05-92 PREMIUM EXEC BATTERY MANAGEMENT CONTROLLER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0679.tb">0679.tb</A>  <tab to=T><TD> 627<BR><TD> AST Research Technical Bulletin #0679 05-08-91 PREMIUM EXEC, QEMM AND DESQVIEW 2.26
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0680.tb">0680.tb</A>  <tab to=T><TD> 685<BR><TD> AST Research Technical Bulletin #0680 05-08-91 ETHERNEXT LAN CARD AND PREMIUM/286
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0681.tb">0681.tb</A>  <tab to=T><TD> 849<BR><TD> AST Research Technical Bulletin #0681 05-17-91 PREMIUM EXEC SUSPEND/RESUME AND PROTECTED MODE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0682.tb">0682.tb</A>  <tab to=T><TD> 1062<BR><TD> AST Research Technical Bulletin #0682 05-06-91 AST PREMIUM SYSTEMS WITH BUILT-IN MOUSE PORTS AND ADIC'S DCB
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0683.tb">0683.tb</A>  <tab to=T><TD> 901<BR><TD> AST Research Technical Bulletin #0683 05-08-91 SUN RIVER CARD AND AST PREMIUM/386-33TE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0684.tb">0684.tb</A>  <tab to=T><TD> 2444<BR><TD> AST Research Technical Bulletin #0684 05-21-91 NOVELL 386 WITH AST DESK TOP AND TOWER SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0685.tb">0685.tb</A>  <tab to=T><TD> 1335<BR><TD> AST Research Technical Bulletin #0685 05-24-91 THE SUPER VGA MONITOR WITH AST VGA ADAPTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0686.tb">0686.tb</A>  <tab to=T><TD> 795<BR><TD> AST Research Technical Bulletin #0686 05-28-91 BRAVO 386/SX-16 AND NOVELL'S NE2000 CARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0687.tb">0687.tb</A>  <tab to=T><TD> 883<BR><TD> AST Research Technical Bulletin #0687 05-30-91 PREMIUM/386-25, 33 AND CORE TAPE BACK UP UNIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0688.tb">0688.tb</A>  <tab to=T><TD> 704<BR><TD> AST Research Technical Bulletin #0688 05-31-91 PREMIUM EXEC 386SX/20 AND GEO WORKS ENSEMBLE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0689.tb">0689.tb</A>  <tab to=T><TD> 1885<BR><TD> AST Research Technical Bulletin #0689 04-30-91 PREMIUM II SYSTEM BIOS AUTOSENSE FEATURE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0690.tb">0690.tb</A>  <tab to=T><TD> 2119<BR><TD> AST Research Technical Bulletin #0690 06-18-91 EXCESSIVE HEAT IN TOWER EISA SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0691.tb">0691.tb</A>  <tab to=T><TD> 1552<BR><TD> AST Research Technical Bulletin #0691 06-19-91 PREMIUM II ILLEGAL CMOS VALUES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0692.tb">0692.tb</A>  <tab to=T><TD> 1014<BR><TD> AST Research Technical Bulletin #0692 07-12-91 PREMIUM EXEC 386SX/20 AND XIRCOM MULTIPLEXOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0693.tb">0693.tb</A>  <tab to=T><TD> 885<BR><TD> AST Research Technical Bulletin #0693 06-20-91 PREMIUM/386-25 PARALLEL PORT AND INTERACTIVE SYSTEMS UNIX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0694.tb">0694.tb</A>  <tab to=T><TD> 729<BR><TD> AST Research Technical Bulletin #0694 06-28-91 AST PREMIUM 386SX-16 AND ALSYS
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0696.tb">0696.tb</A>  <tab to=T><TD> 1810<BR><TD> AST Research Technical Bulletin #0696A 08-16-91 SCO UNIX BOOT FAILURE WITH MEMORY EXPANSION BOARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0697.tb">0697.tb</A>  <tab to=T><TD> 1035<BR><TD> AST Research Technical Bulletin #0697A 08-19-91 SIMULATION SCIENCES SOFTWARE AND AST 486 SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0698.tb">0698.tb</A>  <tab to=T><TD> 840<BR><TD> AST Research Technical Bulletin #0698A 08-16-91 INTELLI-TREND SOFTWARE AND AST PREMIUM/386 SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0699.tb">0699.tb</A>  <tab to=T><TD> 838<BR><TD> AST Research Technical Bulletin #0699 08-05-91 AST KEYBOARD AND BRAVO 486/25
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0700.tb">0700.tb</A>  <tab to=T><TD> 1099<BR><TD> AST Research Technical Bulletin #0700A 08-16-91 PREMIUM 386SX/16 AND COLORADO 120MB TAPE DRIVE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0701.tb">0701.tb</A>  <tab to=T><TD> 876<BR><TD> AST Research Technical Bulletin #0701 08-07-91 PREMIUM EXEC SERIAL MOUSE/BACKLIGHT TIMEOUT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0702.tb">0702.tb</A>  <tab to=T><TD> 1003<BR><TD> AST Research Technical Bulletin #0702 09-17-91 AST ETHERNODE REMOTE BOOT AND DOS 5.00
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0703.tb">0703.tb</A>  <tab to=T><TD> 1900<BR><TD> AST Research Technical Bulletin #0703 09-17-91 PREMIUM/486-33TE AND WESTERN DIGITAL'S ELITE 16 COMBO
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0704.tb">0704.tb</A>  <tab to=T><TD> 16332<BR><TD> AST Research Technical Bulletin #0704 09-06-91 AST 5251/12 REMOTE GATEWAY INSTALLATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0705.tb">0705.tb</A>  <tab to=T><TD> 995<BR><TD> AST Research Technical Bulletin #0705 09-17-91 PREMIUM EXEC AND LCD BORDER COLOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0706.tb">0706.tb</A>  <tab to=T><TD> 1026<BR><TD> AST Research Technical Bulletin #0706 09-25-91 IBM PS/PC SOFTWARE AND PREMIUM EXEC INTERNAL DATA MODEM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0707.tb">0707.tb</A>  <tab to=T><TD> 2147<BR><TD> AST Research Technical Bulletin #0707 10-10-91 PREMIUM II 486SX/20 AND LOTUS 123 RELEASE 3.1
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+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0709.tb">0709.tb</A>  <tab to=T><TD> 1298<BR><TD> AST Research Technical Bulletin #0709 10-14-91 AST SYSTEMS WITH IBM'S OS/2 EE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0710.tb">0710.tb</A>  <tab to=T><TD> 2286<BR><TD> AST Research Technical Bulletin #0710A 10-28-91 SCO OPEN DESKTOP IN 800X600 VIDEO MODE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0711.tb">0711.tb</A>  <tab to=T><TD> 863<BR><TD> AST Research Technical Bulletin #0711 10-28-91 PREMIUM EXEC 386SX20 AND AST MODEM SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0712.tb">0712.tb</A>  <tab to=T><TD> 1083<BR><TD> AST Research Technical Bulletin #0712A 10-28-91 PREMIUM EXEC 386SX-20 AND XIRCOM MULTIPLEXOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0713.tb">0713.tb</A>  <tab to=T><TD> 1055<BR><TD> AST Research Technical Bulletin #0713 10-31-91 AST PREMIUM EXEC 386SX-20 AND TAYLOR SOFTWARE FOR MODICON 884
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0714.tb">0714.tb</A>  <tab to=T><TD> 2030<BR><TD> AST Research Technical Bulletin #0714A 12-20-91 PREMIUM EXEC 386SX AND LOSS OF SETUP
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0715.tb">0715.tb</A>  <tab to=T><TD> 1261<BR><TD> AST Research Technical Bulletin #0715 11-05-91 AST PREMIUM EXEC 286/12 AND DOS 5.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0716.tb">0716.tb</A>  <tab to=T><TD> 1047<BR><TD> AST Research Technical Bulletin #0716 10-28-91 AST PREMIUM II 386SX-20 AND TRAK ENGINEERING SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0717.tb">0717.tb</A>  <tab to=T><TD> 1198<BR><TD> AST Research Technical Bulletin #0717 10-22-91 PREMIUM II UTILITIES WITH MIS-IDENTIFICATION OF 386/33 PROCESSOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0718.tb">0718.tb</A>  <tab to=T><TD> 1693<BR><TD> AST Research Technical Bulletin #0718 10-09-91 AST's SVGA MONITOR AND OS/2 1.21
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0719.tb">0719.tb</A>  <tab to=T><TD> 891<BR><TD> AST Research Technical Bulletin #0719 11-07-91 AST ETHERNODE AND SMC CONCENTRATORS/HUBS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0720.tb">0720.tb</A>  <tab to=T><TD> 1307<BR><TD> AST Research Technical Bulletin #0720 11-12-91 AST PREMIUM 486/33 TOWER EISA AND DPTFMT PROGRAM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0721.tb">0721.tb</A>  <tab to=T><TD> 806<BR><TD> AST Research Technical Bulletin #0721A 12-16-91 PREMIUM EXEC AND EMM386.EXE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0722.tb">0722.tb</A>  <tab to=T><TD> 1132<BR><TD> AST Research Technical Bulletin #0722 11-01-91 ADVANCED FASTRAM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0723.tb">0723.tb</A>  <tab to=T><TD> 1311<BR><TD> AST Research Technical Bulletin #0723 12-02-91 AST PREMIUM/386 TOWER EISA DETECTING RAM MEMORY AT 512K
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0724.tb">0724.tb</A>  <tab to=T><TD> 819<BR><TD> AST Research Technical Bulletin #0724 12-10-91 AST SYSTEMS AND IBM ENTRY LEVEL 3270 VERSION 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0725.tb">0725.tb</A>  <tab to=T><TD> 808<BR><TD> AST Research Technical Bulletin #0725 12-16-91 PREMIUM EXEC 386SX/25 AND NUMLOCK KEY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0726.tb">0726.tb</A>  <tab to=T><TD> 1498<BR><TD> AST Research Technical Bulletin #0726 12-16-91 PREMIUM EXEC, MS-DOS 5.0 DOSSHELL AND TASK SWAPPING
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0727.tb">0727.tb</A>  <tab to=T><TD> 1110<BR><TD> AST Research Technical Bulletin #0727 12-17-91 AST 5251/11 ENHANCED WITH P.C. SUPPORT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0728.tb">0728.tb</A>  <tab to=T><TD> 1155<BR><TD> AST Research Technical Bulletin #0728 12-26-91 AST BRAVO 486/25 VIDEO BIOS ERRORS DURING POST
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0729.tb">0729.tb</A>  <tab to=T><TD> 843<BR><TD> AST Research Technical Bulletin #0729 01-03-92 AST PREMIUM II 386SX-20 AND DEC PCSA SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0730.tb">0730.tb</A>  <tab to=T><TD> 1113<BR><TD> AST Research Technical Bulletin #0730 01-06-92 AST SYSTEMS WITH PS/2 MOUSE PORT AND CH PRODUCTS ROLLER MOUSE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0731.tb">0731.tb</A>  <tab to=T><TD> 1301<BR><TD> AST Research Technical Bulletin #0731 01-06-92 AST 486 SYSTEMS AND MICROSOFT EXCEL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0732.tb">0732.tb</A>  <tab to=T><TD> 1718<BR><TD> AST Research Technical Bulletin #0732 11-04-91 AST PREMIUM II WITH 387SX MATH CO-PROCESSOR AND WINDOWS 3.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0733.tb">0733.tb</A>  <tab to=T><TD> 1297<BR><TD> AST Research Technical Bulletin #0733 01-06-92 WINFAX ERRORS AND MICROSOFT WORKS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0734.tb">0734.tb</A>  <tab to=T><TD> 1173<BR><TD> AST Research Technical Bulletin #0734 01-06-92 BRAVO 386SX-20 AND MICROSOFT WORD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0735.tb">0735.tb</A>  <tab to=T><TD> 1035<BR><TD> AST Research Technical Bulletin #0735 01-16-92 FASTBOARD 386 AND DR-DOS 6.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0736.tb">0736.tb</A>  <tab to=T><TD> 1289<BR><TD> AST Research Technical Bulletin #0736 01-21-92 PREMIUM 486/25 AND IMSI PET MOUSE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0737.tb">0737.tb</A>  <tab to=T><TD> 1320<BR><TD> AST Research Technical Bulletin #0737 01-23-92 PREMIUM EXEC AND MICROSOFT PS/2 MOUSE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0738.tb">0738.tb</A>  <tab to=T><TD> 818<BR><TD> AST Research Technical Bulletin #0738 01-23-92 PREMIUM EXEC AND MICROSOFT BALLPOINT MOUSE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0739.tb">0739.tb</A>  <tab to=T><TD> 750<BR><TD> AST Research Technical Bulletin #0739 11-11-91 AST PREMIUM 486/33 WITH GERMAN KEYBOARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0740.tb">0740.tb</A>  <tab to=T><TD> 1297<BR><TD> AST Research Technical Bulletin #0740 01-15-92 AST PREMIUM EXEC WITH PC HF WEATHER FAX SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0741.tb">0741.tb</A>  <tab to=T><TD> 837<BR><TD> AST Research Technical Bulletin #0741 01-22-92 PREMIUM EXEC WITH MICROSOFT EXCEL
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0742.tb">0742.tb</A>  <tab to=T><TD> 1192<BR><TD> AST Research Technical Bulletin #0742 01-24-92 MICROSOFT WINDOWS 3.0 AND ENHANCED VGA MODES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0743.tb">0743.tb</A>  <tab to=T><TD> 1284<BR><TD> AST Research Technical Bulletin #0743 01-24-92 AST PREMIUM EXEC 386 AND HEALTHDYNE SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0744.tb">0744.tb</A>  <tab to=T><TD> 1649<BR><TD> AST Research Technical Bulletin #0744A 03-04-92 AST 486 BASED SYSTEMS WITH ADAPTEC 1540 AND 1542B
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0745.tb">0745.tb</A>  <tab to=T><TD> 1230<BR><TD> AST Research Technical Bulletin #0745 01-30-92 AST SYSTEMS AND AST 5251/11 TERMINAL EMULATION PROGRAM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0746.tb">0746.tb</A>  <tab to=T><TD> 982<BR><TD> AST Research Technical Bulletin #0746 02-20-92 AST SYSTEMS WITH DPTDDL.SYS DRIVER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0747.tb">0747.tb</A>  <tab to=T><TD> 1123<BR><TD> AST Research Technical Bulletin #0747 02-21-92 RAMPAGEPLUS/MC AND DCA 3270/MC BOARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0748.tb">0748.tb</A>  <tab to=T><TD> 6987<BR><TD> AST Research Technical Bulletin #0748 03-18-92 BIOS SHADOWING IN AST SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0749.tb">0749.tb</A>  <tab to=T><TD> 856<BR><TD> AST Research Technical Bulletin #0749 03-27-92 INTERNATIONAL CHARACTER SETS AND EXTENDED TEXT MODES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0750.tb">0750.tb</A>  <tab to=T><TD> 4845<BR><TD> AST Research Technical Bulletin #0750 04-01-92 PREMIUM EXEC NI-CAD BATTERY INFORMATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0751.tb">0751.tb</A>  <tab to=T><TD> 1312<BR><TD> AST Research Technical Bulletin #0751 04-06-92 HARD DRIVE OPTION KITS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0752.tb">0752.tb</A>  <tab to=T><TD> 1393<BR><TD> AST Research Technical Bulletin #0752 04-08-92 VGA DRIVER SUPPORT FOR WINDOWS 3.1
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0753.tb">0753.tb</A>  <tab to=T><TD> 832<BR><TD> AST Research Technical Bulletin #0753 04-20-92 PREMIUM II 386/33 WITH BARR/3 SDLC BOARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0754.tb">0754.tb</A>  <tab to=T><TD> 1515<BR><TD> AST Research Technical Bulletin #0754 05-20-92 AST OFFICE ADVANTAGE 386SX/20 AND WINDOWS 3.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0755.tb">0755.tb</A>  <tab to=T><TD> 1074<BR><TD> AST Research Technical Bulletin #0755 05-28-92 THIRD FLOPPY DRIVE SUPPORT UNDER IBM OS/2 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0756.tb">0756.tb</A>  <tab to=T><TD> 1266<BR><TD> AST Research Technical Bulletin #0756 06-01-92 PREMIUM EXEC 386SX/20 AND BATTERY WATCH
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0757.tb">0757.tb</A>  <tab to=T><TD> 1731<BR><TD> AST Research Technical Bulletin #0757 06-09-92 AST PREMIUM 486/33 WITH SQL SERVER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0758.tb">0758.tb</A>  <tab to=T><TD> 1856<BR><TD> AST Research Technical Bulletin #0758 05-27-92 AST PREMIUM EXEC AND THE WESTERN DIGITAL 60MB DRIVE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0759.tb">0759.tb</A>  <tab to=T><TD> 839<BR><TD> AST Research Technical Bulletin #0759B 12-15-92 SIMM MATRIX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0760.tb">0760.tb</A>  <tab to=T><TD> 2318<BR><TD> AST Research Technical Bulletin #0760 06-10-92 ASTIVGA.EXE ON THE PREMIUM II AND BRAVO SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0761.tb">0761.tb</A>  <tab to=T><TD> 1399<BR><TD> AST Research Technical Bulletin #0761 06-24-92 AST PREMIUM EXEC 386SX-25 AND CARRIER CORP. SOFTWARE PROTECTION KEY
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0762.tb">0762.tb</A>  <tab to=T><TD> 1499<BR><TD> AST Research Technical Bulletin #0762 07-01-92 AST 5251/11 ENHANCED AND PC GUARDIAN "VIRUS PREVENTION PLUS"
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0763.tb">0763.tb</A>  <tab to=T><TD> 974<BR><TD> AST Research Technical Bulletin #0763 07-16-92 AST MONOCHROME VGA MONITORS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0764.tb">0764.tb</A>  <tab to=T><TD> 1221<BR><TD> AST Research Technical Bulletin #0764 07-17-92 AST POWER PREMIUM SYSTEMS AND HARDWARE CURSOR IMPLEMENTATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0765.tb">0765.tb</A>  <tab to=T><TD> 1206<BR><TD> AST Research Technical Bulletin #0765 07-20-92 AST SYSTEMS AND NORTON DESKTOP
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0766.tb">0766.tb</A>  <tab to=T><TD> 1086<BR><TD> AST Research Technical Bulletin #0766 07-21-92 AST POWER PREMIUM AND PEN POINT SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0767.tb">0767.tb</A>  <tab to=T><TD> 1502<BR><TD> AST Research Technical Bulletin #0767 07-17-92 ADVANTAGE/BRAVO SYSTEMS AND AST/WINDOWS 3.1 LOGO SCREEN
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0768.tb">0768.tb</A>  <tab to=T><TD> 1114<BR><TD> AST Research Technical Bulletin #0768 07-23-92 AST PREMIUM II 386/33 AND TORUS ETHERNET ADAPTER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0769.tb">0769.tb</A>  <tab to=T><TD> 936<BR><TD> AST Research Technical Bulletin #0769A 11-10-92 AST SVGA 14" LOW RADIATION MONITOR
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0770.tb">0770.tb</A>  <tab to=T><TD> 1470<BR><TD> AST Research Technical Bulletin #0770 07-28-92 PREMIUM EXEC DATA FAX\SEND RECEIVE MODEM AND BITFAX SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0771.tb">0771.tb</A>  <tab to=T><TD> 992<BR><TD> AST Research Technical Bulletin #0771 08-12-92 AT&T UNIX AND AST SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0772.tb">0772.tb</A>  <tab to=T><TD> 805<BR><TD> AST Research Technical Bulletin #0772 08-17-92 BRAVO 386SX/16 SYSTEMS HANG ON DOS 5.0 INSTALLATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0773.tb">0773.tb</A>  <tab to=T><TD> 1768<BR><TD> AST Research Technical Bulletin #0773 08-25-92 3COM COMPATIBILITY IN AST EISA SYSTEMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0774.tb">0774.tb</A>  <tab to=T><TD> 380<BR><TD> AST Research Technical Bulletin #0774 09-01-92 AST POWER PREMIUM AND PAGEMAKER 4.0 IN 800X600X32K MODE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0775.tb">0775.tb</A>  <tab to=T><TD> 1003<BR><TD> AST Research Technical Bulletin #0775 09-01-92 AST BRAVO 386/486 SYSTEMS AND BOOT FAILURES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0776.tb">0776.tb</A>  <tab to=T><TD> 787<BR><TD> AST Research Technical Bulletin #0776 09-15-92 UPGRADING THE BRAVO-II 486/XX BIOS TO VERSION 1.22
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0777.tb">0777.tb</A>  <tab to=T><TD> 950<BR><TD> AST Research Technical Bulletin #0777 09-15-92 AST 5250 MCA ADAPTERS AND IBM MODEL P70 PORTABLE COMPUTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0778.tb">0778.tb</A>  <tab to=T><TD> 1966<BR><TD> AST Research Technical Bulletin #0778 09-22-92 BRAVO LC MEMORY UPGRADES WITH APPROVED VENDORS/PART NUMBERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0779.tb">0779.tb</A>  <tab to=T><TD> 1133<BR><TD> AST Research Technical Bulletin #0779 09-25-92 PREMIUM SE 4/33 AND MAYNARD INTERNAL TAPE ADAPTER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0780.tb">0780.tb</A>  <tab to=T><TD> 812<BR><TD> AST Research Technical Bulletin #0780 10-28-92 PREMIUM EXEC AND ULTRACOM 9600 MODEM
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0781.tb">0781.tb</A>  <tab to=T><TD> 1187<BR><TD> AST Research Technical Bulletin #0781 11-02-92 PREMIUM 486/33E AND COGENT DATA TECHNOLOGIES E/MASTER II-AT/TP ETHERNET ADAPTER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0782.tb">0782.tb</A>  <tab to=T><TD> 839<BR><TD> AST Research Technical Bulletin #0782 11-05-92 ADVANTAGE! PLUS SETUP ANOMALIES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0783.tb">0783.tb</A>  <tab to=T><TD> 1117<BR><TD> AST Research Technical Bulletin #0783B 01-11-93 POWER EXEC WITH FILE TRANSFER AND LAPLINK SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0784.tb">0784.tb</A>  <tab to=T><TD> 1005<BR><TD> AST Research Technical Bulletin #0784 11-06-92 AST PREMIUM EXEC DATA/FAX INTERNATIONAL MODEMS AND WINFAXPRO 2.0
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0785.tb">0785.tb</A>  <tab to=T><TD> 1389<BR><TD> AST Research Technical Bulletin #0785 11-06-92 FASTRAM MEMORY BOARD FAILURES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0786.tb">0786.tb</A>  <tab to=T><TD> 950<BR><TD> AST Research Technical Bulletin #0786 11-16-92 POWER EXEC AND FLASH BIOS UPDATE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0787.tb">0787.tb</A>  <tab to=T><TD> 795<BR><TD> AST Research Technical Bulletin #0787 11-10-92 PREMIUM EXEC SYSTEMS AND IBM OS/2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0788.tb">0788.tb</A>  <tab to=T><TD> 1203<BR><TD> AST Research Technical Bulletin #0788 11-17-92 AST 486 SYSTEMS WITH IBM'S 5250 EMULATION CARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0789.tb">0789.tb</A>  <tab to=T><TD> 2070<BR><TD> AST Research Technical Bulletin #0789 11-19-92 PREMIUM 486/25 SYSTEMS AND NOVELL NON-DEDICATED NETWARE 2.2
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0790.tb">0790.tb</A>  <tab to=T><TD> 1959<BR><TD> AST Research Technical Bulletin #0790 12-01-92 BRAVO 4/33 LC AND IRWIN TAPE BACKUP UNIT
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0791.tb">0791.tb</A>  <tab to=T><TD> 1148<BR><TD> AST Research Technical Bulletin #0791 11-20-92 ADVANTAGE! PLUS MINI-TOWER AND I/O PORT CONFIGURATION
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0792.tb">0792.tb</A>  <tab to=T><TD> 913<BR><TD> AST Research Technical Bulletin #0792 12-04-92 PREMIUM EXEC 3/25C AND CENTRAL POINT PC COMMUTE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0793.tb">0793.tb</A>  <tab to=T><TD> 804<BR><TD> AST Research Technical Bulletin #0793 12-08-92 FASTBOARD/386 WITH RAM PARITY ERRORS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0794.tb">0794.tb</A>  <tab to=T><TD> 1270<BR><TD> AST Research Technical Bulletin #0794 12-09-92 POWER PREMIUM AND DALLAS SEMICONDUCTOR DS1255
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0795.tb">0795.tb</A>  <tab to=T><TD> 1081<BR><TD> AST Research Technical Bulletin #0795 12-10-92 PREMIUM II 386SX/20 AND XENIX 2.3 VERSION 4
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0796.tb">0796.tb</A>  <tab to=T><TD> 1112<BR><TD> AST Research Technical Bulletin #0796 12-09-92 PREMIUM 386C WITH 386 TO THE MAX
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0797.tb">0797.tb</A>  <tab to=T><TD> 968<BR><TD> AST Research Technical Bulletin #0797 12-16-92 POWER PREMIUM AND MICROSOFT C/C++
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0798.tb">0798.tb</A>  <tab to=T><TD> 1055<BR><TD> AST Research Technical Bulletin #0798 12-21-92 ADVANTAGE! SYSTEMS AND MICROSOFT PUBLISHER
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0799.tb">0799.tb</A>  <tab to=T><TD> 1110<BR><TD> AST Research Technical Bulletin #0799 12-16-92 BRAVO AND ADVANTAGE MEMORY ACCESS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0800.tb">0800.tb</A>  <tab to=T><TD> 1153<BR><TD> AST Research Technical Bulletin #0800 12-30-62 POWER EXEC WITH STACKER AND NORTON DESKTOP
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0801.tb">0801.tb</A>  <tab to=T><TD> 1090<BR><TD> AST Research Technical Bulletin #0801 01-06-93 BRAVO 486/33 AND PIXEL WORKS RA-1280
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0802.tb">0802.tb</A>  <tab to=T><TD> 1875<BR><TD> AST Research Technical Bulletin #0802 01-04-93 POWER EXEC MODEM SOFTWARE AND EMM386.EXE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0803.tb">0803.tb</A>  <tab to=T><TD> 1298<BR><TD> AST Research Technical Bulletin #0803 12-30-92 EISA SYSTEMS WITH THE RACAL INTERLAN CARD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0804.tb">0804.tb</A>  <tab to=T><TD> 1087<BR><TD> AST Research Technical Bulletin #0804 01-11-93 POWER EXEC WITH SUSPEND AND PARALLEL PRINTERS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0805.tb">0805.tb</A>  <tab to=T><TD> 918<BR><TD> AST Research Technical Bulletin #0805 01-11-93 POWER EXEC AND "MOUSE CONNECTED TO..." FIELD
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0806.tb">0806.tb</A>  <tab to=T><TD> 841<BR><TD> AST Research Technical Bulletin #0806 01-11-93 POWER EXEC AND RECEIVING DATA COMMUNICATIONS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0807.tb">0807.tb</A>  <tab to=T><TD> 550<BR><TD> AST Research Technical Bulletin #0807 01-11-93 POWER EXEC, EXTERNAL KEYBOARDS AND DIAGNOSTIC PROGRAMS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0808.tb">0808.tb</A>  <tab to=T><TD> 732<BR><TD> AST Research Technical Bulletin #0808 01-11-93 POWER EXEC SL AND 12:05 ERROR MESSAGE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0809.tb">0809.tb</A>  <tab to=T><TD> 906<BR><TD> AST Research Technical Bulletin #0809 01-11-93 POWER EXEC SL COM PORT COMBINATIONS
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0810.tb">0810.tb</A>  <tab to=T><TD> 666<BR><TD> AST Research Technical Bulletin #0810 01-11-93 POWER EXEC AND FULL POST TEST
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0811.tb">0811.tb</A>  <tab to=T><TD> 605<BR><TD> AST Research Technical Bulletin #0811 01-11-93 POWER EXEC SETUP FIELD CHANGES
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0812.tb">0812.tb</A>  <tab to=T><TD> 1410<BR><TD> AST Research Technical Bulletin #0812 01-21-93 PREMIUM EXEC SUSPEND MODE AND BITFAX SOFTWARE
+<TR VALIGN=TOP><TD ALIGN=TOP><A HREF="0813.tb">0813.tb</A>  <tab to=T><TD> 1204<BR><TD> AST Research Technical Bulletin #0813 02-02-93 CUPID 486/33 SYSTEMS AND INTEL OVERDRIVE PROCESSOR UPGRADES
+</TABLE><P><TABLE WIDTH=100%><TR><TD ALIGN=RIGHT><SMALL>There are 530 files for a total of 736,093 bytes.</SMALL></TABLE>
--- a/textfiles.com/computers/ASTRESEARCH/0001a.tb
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@@ -0,0 +1,33 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0001A                  5-18-84
+
+                   COMPATIBLE CLOCK BATTERIES
+
+
+The lithium batteries used on AST multifunction products are used 
+to  power  the  clock/calendar circuitry while  the  computer  is 
+powered   off.    The  expected  life  of  these   batteries   is 
+approximately one year.
+
+A replacement battery may be obtained from the AST product dealer 
+(AST part number 108-BR2325).   Compatible substitution batteries 
+may be purchased from local camera or department stores.
+
+The following is a list of compatible lithium batteries:
+
+          Manufacturer                   Part Number
+
+          Duracell                         DL2032
+          General Electric                 BR2325
+          Panasonic                        BR2325
+          Ray-O-Vac                        BR2325
+          Sanyo                            CR2032
+          Varta                            CR2032
+         *Radio Shack                      CR2320H
+
+Battery  replacement  instructions  are included  in  the  manual 
+supplied with the AST product.
+
+*Battery  is  .5mm  thinner and is rated  50mAh  less,  but  will 
+function  properly.   The  expected  life is  approximately  nine 
+months.
+
--- a/textfiles.com/computers/ASTRESEARCH/0002.tb
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@@ -0,0 +1,29 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0002                   4-16-84
+
+      POWER-ON SELF TEST ERROR ON XT AND PORTABLE COMPUTERS
+
+
+When  the IBM-XT or portable computer is powered-on,  the  system 
+BIOS initializes a Power-On Self Test (POST).  In the upper left-
+hand corner of the screen,  the progress of the POST is displayed 
+in the format:
+
+                            XXX KB OK
+
+The  number (XXX) should continue to increase until it equals the 
+amount of memory installed in the system.   Normally,  this  test 
+takes  23 to 90 seconds to complete,  depending on the amount  of 
+memory  installed.   Upon completion,  the system will attempt to 
+boot the diskette in drive A.
+
+However,  if switch 1 of the switch system board switch block  is 
+"ON",  the  POST  will re-initialize and start over.   This  will 
+continue in an endless loop.
+
+This  problem can be resolved by removing power from the  system, 
+positioning  switch 1 in the "OFF" position and then  re-applying 
+power to the system.
+
+The IBM Guide to Operations refers to this switch only as "Normal 
+operation; always off".
+
--- a/textfiles.com/computers/ASTRESEARCH/0003a.tb
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@@ -0,0 +1,33 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0003A                  4-30-84
+
+
+                MEMORY SWITCH ERROR IN IBM GUIDE 
+                TO OPERATIONS FOR IBM PORTABLE PC
+
+
+When  extending the memory size of the IBM Portable PC beyond the 
+128K minimum capacity of the system motherboard, the procedure is 
+essentially the same as that for the XT.
+
+Additional  memory may be installed on the I/O bus without  first 
+fully populating the motherboard.   However,  it is necessary  to 
+indicate  the amount of motherboard memory installed via switches 
+3 and 4 of the system motherboard switch block.
+
+Unfortunately,  page  4-81 of the IBM Guide to Operations  Manual 
+erroneously  shows  that  the  switch position for  256K  on  the 
+motherboard  is switch 3 off and switch 4 on.   This is  actually 
+the setting for 128K of RAM.
+
+The following is the proper settings for switches 3 and 4 of  the 
+system motherboard switch block.
+
+          AMOUNT OF MEMORY             SWITCH        SWITCH
+      INSTALLED ON MOTHERBOARD            3             4
+
+                128K                     OFF           ON
+
+                192K                     ON            OFF
+
+                256K (fully populated)   OFF           OFF
+
--- a/textfiles.com/computers/ASTRESEARCH/0004b.tb
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@@ -0,0 +1,94 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0004B                  3-19-85
+
+
+        D-RAM CHIP COMPATIBILITY FOR MULTIFUNCTION CARDS
+
+
+The  following is a list of 64K and 256K RAM Integrated  Circuits 
+recommended  by  AST  for use with AST  Products.   The  products 
+covered  in  this  list are:   SixPakPlus,  Advantage!,  jrCombo,  
+MP Mini, MegaPlus II, ComboPlus and MP II.
+
+The  following  64K D-RAMS are recommended for the  MegaPlus  II, 
+MP  Expansion,  and  ComboPlus.   The SixPakPlus (Revision  D  or 
+earlier) also uses the same D-RAMS.
+
+               VENDOR              PART NUMBER
+                                   
+               AMD                 AM9064-20PC
+               Hitachi             HM4864P-3
+               Fujitsu             MB8264-20M
+               Intel               P2164A-20
+               Micron              MT4264N-3 or -20
+               Mitsubishi          M5K4164NP-20
+               Mostek              MK456N-20
+               Motorola            MCM6665AP20 or ...BP20
+               NEC                 UPD4164C-2
+               OKI                 MSM3764-2 or S
+               TI                  TMS4164-20NL
+               Toshiba             TMMS4164-20NL
+               Toshiba             TMM4164AP-20
+
+The following 64K D-RAMS are recommended for the jrCombo, MP Mini 
+and  MP II.   The SixPakPlus (Revision E or later) also uses  the 
+same D-RAMS.
+
+               VENDOR              PART NUMBER
+
+               AMD                 AM9064-15PC
+               Hitachi             HM4864P-2
+               Fujitsu             MB8264-15M
+               Intel               P2164A-15
+               Micron              MT4264N-2 or -15
+               Mitsubishi          M5K4164NP-15
+               Mostek              MK4564N-15
+               Motorola            MCM6665AP15 or ...BP15
+               NEC                 UPD4164C-3
+               OKI                 MSM3764-15RS
+               TI                  TMS4164-15NL
+               Toshiba             TMM4164P-3
+               Toshiba             TMM4164AP-15
+               AMD                 AM9064-20PC
+               Hitachi             HM4864P-3
+               Fujitsu             MB8264-20M
+               Intel               P2164A-20
+               Micron              MT426N-3 or -20
+               Mitsubishi          M5K4164NP-20
+               Mostek              MK456N-20
+               Motorola            MCM6665AP20 or ...BP20
+               NEC                 UPD4164C-2
+               OKI                 MSM3764-20RS
+               TI                  TMS4164-20NL
+               Toshiba             TMM4164P-4
+               Toshiba             TMM4164AP-20
+
+The following 64K D-RAMS are recommended for the Advantage!:
+
+               VENDOR              PART NUMBER
+
+               AMD                 AM9064-15PC
+               Hitachi             HM4864P-2
+               Fujitsu             MB8264-15M
+               Intel               P2164A-15
+               Micron              MT4264N-2 or -15
+               Mitsubishi          M5K416NP-15
+               Mostek              MK456N-15
+               Motorola            MCM6665AP15 or ...BP15
+               NEC                 UPD4164C-3
+               OKI                 MSM3764-15RS
+               TI                  TMS4164-15NL
+               Toshiba             TMM4164P-3
+               Toshiba             TMM4164AP-15
+
+The following 256K D-RAMS are recommended for the Advantage!  and 
+jrCombo:
+
+               VENDOR              PART NUMBER
+
+               Hitachi             HM50256P-15
+               TI                  TMS4256-15NL
+               AT & T              WCM41256FX-20
+
+AST further recommends that the speed of the D-RAMS,  measured in 
+nanoseconds should NOT be mixed on the same board.
+
--- a/textfiles.com/computers/ASTRESEARCH/0005.tb
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@@ -0,0 +1,56 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0005                   4-23-84
+
+
+     SETTING CLOCK FREQUENCY FOR SIXPAKPLUS FASTER OR SLOWER
+
+
+CAUTION:   We  suggest  that you leave the factory  configuration
+           alone.   But,  if  you  must,  here is  the  pertinent
+           information you'll need.
+
+How  to  set frequency of SixPak clock,  so as to slow  frequency
+down or speed frequency up.
+
+First, a few points of reference:
+
+     1.  Clock  chip  U66  on  SixPak board,  pin 11 is  the  pin
+         responsible  for checking frequency (see  Diagram  1.0).
+         The  notched  end of the chip is the location of  pin  1
+         (see Diagram 1.1).
+
+     2.  Variable  Capacitor; C86 located next to clock chip (see
+         Diagram 2.0). Turning this clockwise speeds up frequency
+         and turning counter-clockwise slows it down (see Diagram
+         2.1).
+
+         The recommended  frequency range is  30.5171-30.5175KHZ.
+         Above  30.5175,  or  clockwise,  is  faster;  and  below
+         30.5171  KHZ,  or  counter-clockwise,  is  slower   (see
+         Diagram 2.2).
+
+     3.  Setting   Frequency   Counter:     Racal-Dana  9906   or
+         Equivalent.
+
+               A)  Time Base 104
+               B)  Period A
+               C)  Delay Out
+               D)  DC
+               E)  Start and Stop on Leading Edge
+
+     4.  Checking  voltage of  battery pin 24 of clock  chip  and
+         minus   side  of  battery   holder  (see  Diagram  3.0).
+         Minimum  voltage at pin 24  should be no lower than  2.3
+         volts, and the  battery itself should be 3.0 volts;  2.8
+         at the lowest.
+
+NOTE:   As a portion of the data is in pictorial form, it  is not
+included  here.   To  obtain  a complete copy of  this  technical
+bulletin, contact:
+
+               AST RESEARCH, INC.
+               2121 Alton Avenue
+               Irvine, California   92714
+
+               ATTENTION:  Product Support
+                           (Technical Bulletin)
+
--- a/textfiles.com/computers/ASTRESEARCH/0006.tb
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+AST RESEARCH TECHNICAL BULLETIN TB-0006                   4-30-84
+
+
+                 MONOGRAPHPLUS CAUTION STATEMENT
+
+
+The  following  caution statement is included both as a  separate 
+warning  notice,  and  as a notice within both  manuals  in  each 
+MonoGraphPlus shipping package.
+
+                       C A U T I O N ! ! ! 
+
+     TO PREVENT DAMAGE TO YOUR MONITOR, DO NOT RUN THE IBM
+     DIAGNOSTICS  WITH  YOUR  AST  RESEARCH  MONOGRAPHPLUS 
+     BOARD  UNTIL YOU HAVE MODIFIED THEM ACCORDING TO  THE 
+     INSTRUCTIONS  IN  APPENDIX  A  OF  THE  MONOGRAPHPLUS 
+     USER'S  MANUAL  OR APPENDIX E  OF  THE  MONOGRAPHPLUS 
+     TECHNICAL REFERENCE MANUAL.
+
+     If you run unmodified diagnostics with the MonoGraph
+     Plus  board,  the  screen will display "garbage"  and 
+     damage  to  your  monitor  can  result.    Under   no 
+     circumstances will AST Research,  Inc.,  be liable in 
+     any   way   for  damages  that  arise  from   running 
+     unmodified  IBM  diagnostics  with the  MonoGraphPlus 
+     board.
+
+     Do not run the diagnostics if you are unable to patch 
+     them. 
+
+The  damage  which  is  referred to is that  a  fuse  within  the 
+Monochrome monitor may "blow" and result in the requirement for a 
+service  call.   As this is an internal fuse, the monitor must be 
+opened  up to service the fault.   We do not  recommend that  the 
+customer  attempt  this  service  himself.    Potentially  lethal 
+voltages  exist  within the monitor,  even with  the  power  cord 
+removed from the source.  In addition, this fuse is soldered into 
+the circuit,  and as such,  soldering skills are required for its 
+replacement.
+
--- a/textfiles.com/computers/ASTRESEARCH/0007.tb
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@@ -0,0 +1,39 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0007                   4-13-84
+
+
+             CABLE CONNECTION FOR AST PARALLEL PORT
+                TO IDS MODEL P-132 COLOR PRINTER
+
+
+To  connect the IDS model P-132 color printer to the AST parallel 
+port,  a unique printer cable must be fabricated.  
+
+While  AST does not provide a cable for this connection,  table 1 
+illustrates  the  connections necessary to fabricate a  cable  to 
+connect  between the AST adapter cables DB25S connector  and  the 
+IDS printer.
+
+
+  LINE      AST PARALLEL PORT        IDS PRINTER       LINE
+  NAME       CABLE CONNECTOR          CONNECTOR        NAME
+
+-STROBE              1---------------------3          STROBE
+   D0                2--------------------14            D0
+   D1                3--------------------13            D1
+   D2                4--------------------12            D2
+   D3                5--------------------11            D3
+   D4                6--------------------10            D4
+   D5                7---------------------9            D5
+   D6                8---------------------8            D6
+   D7                9                   N.C.
+  -ACK              10--------------------22           ACK
+  BUSY              11--------------------19           BUSY
+   PE               12--------------------24         PAPER OUT
+  SLOT              13---------------------4          ON LINE
+
+ -ERROR             15---------------------18      FAULT TTL LEVEL 
+
+ GROUND             18----------------------7       SIGNAL GROUND
+                   thru   
+                    25---                ---1     PROTECTIVE GROUND
+
--- a/textfiles.com/computers/ASTRESEARCH/0008a.tb
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@@ -0,0 +1,38 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0008A                  6-25-84
+
+
+                MEGAPLUS II GAME ADAPTER PROBLEM
+
+
+In the revisions listed below of the MegaPlus II, the location of
+a crystal is in conflict with securing the game adapter piggyback
+board.
+
+                       REV              AO
+                       REV              C
+                       REV              D
+                       REV              E
+
+Normally,  the game adapter is plugged into a 62-pin connector on
+the   MegaPlus  II  board,   then  fastened  at  the  top  via  a
+standoff.
+
+This  conflict will require the user to remove  the standoff,  or
+"stud",  that  fastens the game adapter to the MegaPlus II.   The
+two  boards,  therefore,  being fastened at the 62 pin  connector
+only.  Tests show this is a plausible solution.
+
+The revision ID is located at the leftmost end of the board  near
+the center.
+
+NOTE:   As a portion of the data is in pictorial form,  it is not
+included  here.   To  obtain  a complete copy of  this  technical
+bulletin, contact:
+
+               AST RESEARCH, INC.
+               2121 Alton Avenue
+               Irvine, California   92714
+
+               ATTENTION:  Product Support
+                           (Technical Bulletin)
+
--- a/textfiles.com/computers/ASTRESEARCH/0009.tb
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@@ -0,0 +1,23 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0009                   4-13-84
+
+
+                SIXPAKPLUS WITHOUT PRINTER OPTION
+
+
+Jumper  IRQ-7  should be removed when the printer option  is  not
+installed  on  the  SixPakPlus.   It is possible that  the  IRQ-7
+driver  (U85-FIG.1) could erroneously enable and hold  this  term
+low.    By   removing  the  IRQ-7  jumper,   this  possibility is
+eliminated.
+
+NOTE:   As a portion of the data is in pictorial form,  it is not
+included  here.   To  obtain  a complete copy of  this  technical
+bulletin, contact:
+
+               AST RESEARCH, INC.
+               2121 Alton Avenue
+               Irvine, California   92714
+
+               ATTENTION:  Product Support
+                           (Technical Bulletin)
+
--- a/textfiles.com/computers/ASTRESEARCH/0010.tb
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@@ -0,0 +1,40 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0010                   4-13-84
+
+
+                 IRQ-7 PARALLEL PORT CONTENTION
+             IRQ-7 USED BY AST MULTIFUNCTION BOARDS
+                FOR PARALLEL I/O PORT OPERATIONS
+
+
+In  some of the earlier multifunction boards,  where the parallel
+port is an option and that option is not included on the board, a
+problem is created.
+
+When this option,  parallel port, was not ordered, a IC (74LS174)
+that  governs the status lines for the parallel port was  deleted
+on the bill of materials.   Unfortunately,  this IC also controls
+the IRQ-7 line.  With this IC (74LS174) not present, it creates a
+low condition,  via 74LS125,  which causes contention with  other
+devices  trying  to use IRQ-7.   Example of circuit is  attached.
+
+The IC (74LS174) must be installed for proper  operation.   Refer
+to schematics,  at rear of user's manual, for correct location of
+74LS174 IC.
+
+AST  Research  suggests when working with dual in line  packages,
+that  you carefully place IC's in socket so that the legs  insert
+properly  into  socket.   Examine carefully after  insertion  and
+verify  that  all  legs  of  IC  are  seated  properly  in  their
+respective socket.
+
+NOTE:   As a portion of the data is in pictorial form,  it is not
+included  here.   To  obtain  a complete copy of  this  technical
+bulletin, contact:
+
+               AST RESEARCH, INC.
+               2121 Alton Avenue
+               Irvine, California   92714
+
+               ATTENTION:  Product Support
+                           (Technical Bulletin)
+
--- a/textfiles.com/computers/ASTRESEARCH/0011.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0011.tb
@@ -0,0 +1,24 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0011                   5-1-84
+
+
+               SIXPAKPLUS VER 1.0 SCHEMATIC ERROR
+
+
+The  SixPakPlus  ver 1.0 has an error in the game port  interface
+schematic  (see Fig.  1.0).   Please make respective  changes  to
+SixPakPlus user's manual.
+
+Game  port  schematic is located in back of manual,  part  number
+PUB-001177-01-AO.
+
+NOTE:   As a portion of the data is in pictorial form,  it is not
+included  here.   To  obtain  a complete copy of  this  technical
+bulletin, contact:
+
+               AST RESEARCH, INC.
+               2121 Alton Avenue
+               Irvine, California   92714
+
+               ATTENTION:  Product Support
+                           (Technical Bulletin)
+
--- a/textfiles.com/computers/ASTRESEARCH/0012.tb
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@@ -0,0 +1,42 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0012                   5-16-84
+
+ 
+               MEGAPLUS II IRQ SILKSCREEN CONFLICT
+
+
+In  certain revisions of the MegaPlus II,  the silkscreen for the 
+IRQ block is in error.  The correct silkscreen for the IRQ jumper 
+block should be:
+
+                    *  *  *  *  *  *  *  *  *
+                                              < JUMPER BLOCK
+                    *  *  *  *  *  *  *  *  *
+      CORRECT
+                    2  2  3  3  4  4  5  5  7
+
+                    S  C  S        C  C  S  C
+
+The incorrect silkscreen is as follows:
+
+                    *  *  *  *  *  *  *  *  *
+                                              < JUMPER BLOCK
+                    *  *  *  *  *  *  *  *  *
+    INCORRECT
+                    2  2  3  3  4  4  5  5  7
+
+                    S  C     S  S  C  C  S  C
+
+Notice that the position labeled 3S and 3 are swapped,  and 4 was 
+changed to 4S.
+
+Listed  below  are the revision levels that  have  the  incorrect 
+silkscreen for ASSY 03-01165-01 MegaPlus II board:
+
+                         REV   AO
+
+                         REV    C
+
+                         REV    D
+
+                         REV    E
+
--- a/textfiles.com/computers/ASTRESEARCH/0013a.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0013a.tb
@@ -0,0 +1,33 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0013A                  8-31-84
+
+
+                3.30 WORDSTAR PATCH FOR IBM PC'S
+                 WITH MORE THAN 512K RAM MEMORY
+                    "NOT ENOUGH MEMORY" ERROR
+
+
+WordStar is a program that is set up to see a maximum of 512K RAM 
+memory.   If it sees more than that amount,  it will try to write 
+over itself.  Not being able to complete this task, WordStar will 
+give back the error "not enough memory".
+
+The  patch  below will rectify the error explained  above.   This 
+patch is also only compatible with IBM PCs with WordStar 3.30 and 
+PC  DOS  2.00 and 2.10.   This patch is to be utilized  with  IBM 
+DEBUG on the WINSTALL.COM file.
+
+
+     IBM Personal Computer DOS Version 2.00 & 2.10
+
+     A> debug WINSTALL.COM <-------------First Line
+
+     -e  2d4 <---------------------------Second Line
+     090B:02D4    7C.72 <----------------Third Line - Only the 72
+     -w <--------------------------------Fourth Line
+     Writing 0480 bytes <----------------Computer Answer Back with
+     -q <--------------------------------Fifth Line, and Final
+
+
+WordStar is a registered trademark of Micro Pro Corporation.  IBM 
+is  a  registered trademark of  International  Business  Machines 
+Corporation.
--- a/textfiles.com/computers/ASTRESEARCH/0014.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0014.tb
@@ -0,0 +1,37 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0014                   6-1-84
+
+
+                   MULTIFUNCTION FEATURE SUMMARY
+
+
+The  matrix  table  below was assembled for  quick  reference  of
+multifunction products and their features.
+
+                I/O      COMBO     MEGA     SIXPAK   MP II   MONOGRAPH
+              PLUS II   PLUS II   PLUS II    PLUS               PLUS
+
+
+MAXIMUM MEM     N/A      256K      256K      384K     384K     N/A
+ON BOARD
+
+ADDITIONAL      N/A       N/A      128K       N/A      N/A     N/A
+MEGAPAK MEM                         OR
+                                   256K
+
+SERIAL PORT   ONE STD   ONE STD   ONE STD   ONE STD    N/A    ONE STD*
+              TWO OPT             TWO OPT
+
+PARALLEL      ONE OPT   ONE STD   ONE OPT   ONE STD    N/A    ONE STD
+PORT
+
+GAME PORT     ONE OPT     N/A     ONE OPT   ONE OPT    N/A      N/A
+
+CLOCK           STD       STD       STD       STD      STD      STD
+
+SUPERPAK        STD       STD       STD       STD      STD      N/A
+
+MONOGRAPHPAK    N/A       N/A       N/A       N/A      N/A      STD
+
+
+* ONE DELETED IS OPTIONAL
+
--- a/textfiles.com/computers/ASTRESEARCH/0015a.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0015a.tb
@@ -0,0 +1,40 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0015A                  9-19-84
+
+
+           INCOMPATIBILITY OF COLUMBIA'S PARALLEL PORT
+
+
+Due  to  compatibility  inquiries,  tests have been conducted  on 
+Columbia's (DESKTOP PC model 1600) parallel port.
+
+The  results  of these tests show that Columbia parallel port  is 
+not  directly  compatible  with  IBM  hardware  standard  or  AST 
+SuperSpool.
+
+Listed  below are three major considerations to be aware of  when 
+configuring this system with an AST product.
+
+     1.   Parallel port on Columbia does a self increment.   When 
+          an  AST  product with a parallel port is installed  and 
+          addressed   as  LPT1,   the  Columbia   parallel   port 
+          increments to LPT2.
+
+     2.   SuperSpool  will  not function properly when output  is 
+          directed  to  Columbia's parallel port.   This is  true 
+          whether the port is addressed as LPT1 or LPT2.
+
+     3.   Located  on  the Columbia's motherboard  is  the  cable 
+          connector for a parallel port.   This connection is not 
+          IBM  plug compatible.   It is a 37 position  connector, 
+          whereas the IBM and AST parallel port connectors are 25 
+          position.
+
+To optimize usage  of an AST product in this PC;   1) address AST 
+board as LPT1,  thereby allowing usage of SuperSpool,  2) procure 
+an  IBM compatible cable or modify existing cable to conform with 
+IBM standards,   3) if Columbia's parallel port is to be used, do 
+not direct SuperSpool to this point.
+
+
+Note:  All testing and considerations are based on PC-DOS.
+
--- a/textfiles.com/computers/ASTRESEARCH/0016.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0016.tb
@@ -0,0 +1,72 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0016                    6-7-84
+
+
+                   FREQUENTLY-ASKED QUESTIONS
+                   MONOGRAPHPLUS GRAPHICS CARD
+
+
+*WHAT DOES THE MONOGRAPHPLUS DO?
+ The  MonoGraphPlus  replaces  IBM's  Monochrome  Display/Printer
+ Adapter  and  enables  you  to do  bit-mapped  graphics  on  the
+ monochrome  display without  sacrificing its high  quality  text
+ characters.
+
+*WHAT IS THE RESOLUTION WITH THE MONOGRAPHPLUS?
+ There  are two graphics pages each with a  resolution of 720h  x
+ 348v.
+
+*CAN I RUN 1-2-3 ON THE MONOGRAPHPLUS?
+ Yes.   The MonoGraphPlus is one of the graphics cards that Lotus
+ fully supports.
+
+*IS THE GRAPHICS CARD COMPATIBLE WITH THE XT?
+ Yes.  It's compatible with the XT and DOS 2.0.
+
+*CAN  I  RUN  THE SAME SOFTWARE THAT I RAN ON MY  IBM  MONOCHROME
+ BOARD?
+ Yes.  Applications software and programming languages compatible
+ with  the  IBM monochrome board are  also  compatible  with  the
+ MonoGraphPlus.   You  can run text mode software like  WordStar,
+ VisiCalc and dBase II without any modifications.
+
+*WHAT SOFTWARE DO YOU SUPPLY?
+ We provide a diskette,  MonoGraphPak, which includes programs to
+ use the  clock/calendar function and to display  a  26th  status
+ line.   That  line includes such information as directory trees,
+ status  of selected keys,  and a running display of the time-of-
+ day.   In  addition,  we  supply detailed information on how  to
+ program a 27th line with any information you wish.
+
+*CAN I RUN GRAPHICS SOFTWARE WRITTEN ONLY FOR THE IBM COLOR CARD?
+ No.    However,   there  are  a   number  of  graphics  programs
+ compatible with the MonoGraphPlus.
+
+*CAN I SIMULTANEOUSLY DISPLAY TEXT AND GRAPHICS?
+ Yes.  In graphics mode, software draws the test characters.
+
+*WHAT CHARACTER SET DOES THE MONOGRAPHPLUS USE?
+ The character set is the IBM style of a 7x9 character in a  9x14
+ box.  It is located in a socketed EPROM on the MonoGraphPlus.
+
+*WHICH PRINTERS OR PLOTTERS CAN I USE WITH THE CARD?
+ Any  parallel  port  printer or plotter is compatible  with  the
+ MonoGraphPlus.
+
+*WILL YOUR CARD WORK WITH IBM'S COLOR CARD IN THE SYSTEM?
+ No,  because  they  use  the same memory address in  the  screen
+ buffer.
+
+*WHICH   SYSTEM  AND   MONITORS  OTHER   THAN  IBM'S   WILL   THE
+ MONOGRAPHPLUS SUPPORT?
+ The MonoGraphPlus meets the specifications of the IBM PC and the
+ IBM  monochrome  display and it will support other  systems  and
+ monitors which also meet those specs. The MonoGraphPlus does not
+ support a color monitor.
+
+*WHAT DOCUMENTATION DO YOU SUPPLY?
+ We supply a User's Manual which describes installation, checkout
+ and basic use of the MonoGraphPlus.   In addition,  we supply  a
+ very  comprehensive  Technical Reference  Manual which  includes
+ detailed   programming  information,   schematics,   and   other
+ information of value to the technical user.
+
--- a/textfiles.com/computers/ASTRESEARCH/0017.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0017.tb
@@ -0,0 +1,53 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0017                    6-8-84
+
+
+            APPROVED PARTS FOR OPTIONAL SERIAL PORTS
+
+
+To  insure  a high level of product quality,  AST  qualifies  all
+components used within their products.
+
+The attached list itemizes the semi-conductors used to install an
+optional serial port.   Listed under each generic part number and
+description  are the approved  manufacturers and part number  for
+that part.
+
+Parts  other  than  those listed are not qualified  and  may  not
+function properly.
+
+GENERIC         AST PART NO.                APPROVED MANUFACTURER
+
+ 8250B           100018-001          NATIONAL          INS825ON-B
+                                     WESTERN DIGITAL   WD8250P-20
+                                     WESTERN DIGITAL   WD8250P-00
+
+ 1488            100008-001          FAIRCHILD         UA1488PC
+                                     MOTOROLA          MC1488PC
+                                     NATIONAL          DS1488N
+                                     SIGNETICS         MC1488P
+                                     TEXAS INST.       MC1488P
+                                     TEXAS INST.       75188
+
+ 1489            100009-001          FAIRCHILD         UA1489PC
+                                     MOTOROLA          MC1489PC
+                                     NATIONAL          DS1489N
+                                     SIGNETICS         MC1489P
+                                     TEXAS INST.       MC1489P
+                                     TEXAS INST.       75189
+
+74LSO4           100003-003          HITACHI           HD74LSO4P
+                                     MITSUBISHI        M74LSO4P
+                                     MOTOROLA          SN74LSO4N
+                                     NATIONAL          DM74LSO4N
+                                     SGS               P74LSO4B1
+                                     SIGNETICS         N74LSO4N
+                                     TEXAS INST.       SN74LSO4N
+
+74LS90           100003-015          FAIRCHILD         74LS9OPC
+                                     HITACHI           HD74LS9OP
+                                     MITSUBISHI        M74LS9OP
+                                     MOTOROLA          SN74LS9ON
+                                     NATIONAL          DM74LS9ON
+                                     SIGNETICS         N74LS9ON
+                                     TEXAS INST.       SN74LS9ON
+
--- a/textfiles.com/computers/ASTRESEARCH/0018.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0018.tb
@@ -0,0 +1,22 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0018                   6-11-84
+
+
+       SIXPAKPLUS SWITCH SETTING & PLUG POSITION
+
+
+To  facilitate answering  questions or configuring  a  SixPakPlus
+product  into  an  IBM  PC the following  information  on  switch
+setting  and  shorting  plug positions has  been  assembled  (see
+Exhibit A).
+
+NOTE:   As a portion of the data is in pictorial form,  it is not
+included  here.   To  obtain  a complete copy of  this  technical
+bulletin, contact:
+
+               AST RESEARCH, INC.
+               2121 Alton Avenue
+               Irvine, California   92714
+
+               ATTENTION:  Product Support
+                           (Technical Bulletin)
+
--- a/textfiles.com/computers/ASTRESEARCH/0019a.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0019a.tb
@@ -0,0 +1,49 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0019A                  7-16-84
+
+
+                       IBM PC ERROR CODES
+
+
+Below  is  a list of error codes that may occur during  the  POST 
+(Power On Self Test) or when running the IBM Diagnostics.   If it 
+were to occur during the POST, it would appear as a three or four 
+digit number.  If it were to occur during the IBM Diagnostics, it 
+would  appear  as "ERROR -- SYSTEM UNIT xxyy",  where xx  is  the 
+device  number and yy is the error code.   The most common  error 
+code is 01.   For example, the error message "ERROR - SYSTEM UNIT 
+201"  would appear in the IBM Diagnostics if it were to detect  a 
+memory error.
+
+
+DEVICE ERROR         DEVICE NAME
+
+   021               POWER SUPPLY
+   101               SYSTEM UNIT
+   201               MEMORY
+   301               KEYBOARD
+   401               MONOCHROME DISPLAY
+   501               COLOR/GRAPHICS DISPLAY
+   601               DISKETTE DRIVE(S)/ADAPTER
+   701               MATH COPROCESSOR
+   901               PARALLEL PRINTER ADAPTER
+  1101               ASYNCHRONOUS COMMUNICATIONS ADAPTER - COM1
+  1201               ALTERNATE ASYNCHRONOUS COMMUNICATIONS - COM2
+  1301               GAME CONTROL ADAPTER
+  1401               IBM MATRIX PRINTER
+  1501               SYNCHRONOUS DATA LINK CONTROL COMMUNICATIONS
+                     - SDLC                    
+  1701               FIXED DISK DRIVE(S)/ADAPTER
+  1801               EXPANSION UNIT
+  2001               BINARY SYNCHRONOUS COMMUNICATIONS - BSC
+  2101               ALTERNATE BINARY SYNCHRONOUS COMMUNICATIONS 
+                     - ALT BSC
+  2201               IBM CLUSTER ADAPTER
+* 2801               DISTRIBUTED FUNCTION COMMUNICATIONS ADAPTER
+  2801               IBM 3278/79 EMULATION ADAPTER
+  2901               IBM COLOR GRAPHICS PRINTER
+* 3201               DISPLAY ADAPTER
+  3301               IBM COMPACT PRINTER
+
+
+* - 3270 PC ONLY  
+
--- a/textfiles.com/computers/ASTRESEARCH/0020.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0020.tb
@@ -0,0 +1,27 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0020                   6-18-84
+
+
+           COM 2 SELECTION IN IBM PC-2 EARLY MODELS
+
+
+It  has  been  reported  that  there are a  number  of  IBM  PC-2
+motherboards, earlier models, that do not allow COM 2 selection.
+
+There are two distinctly physical features:
+
+  1.  The motherboard is brown in color.
+
+  2.  In between banks 02 and 03, the silkscreen "YB" exists (see
+      figure 1).
+
+NOTE:   As a portion of the data is in pictorial form,  it is not
+included  here.   To  obtain  a complete copy of  this  technical
+bulletin, contact:
+
+               AST RESEARCH, INC.
+               2121 Alton Avenue
+               Irvine, California   92714
+
+               ATTENTION:  Product Support
+                           (Technical Bulletin)
+
--- a/textfiles.com/computers/ASTRESEARCH/0021.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0021.tb
@@ -0,0 +1,40 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0021                   6-22-84
+
+
+      USING A TALLGRASS HARDFILE AS THE PC-NET FILE SERVER
+
+
+A Tallgrass HardFile running with Tallgrass software release 4.18
+or   later  is fully compatible with AST-PCnet and AST-PCnet  II. 
+However,  for proper operation with the network,  please note the 
+following.
+
+     1.  The "Duplicate Directory", "Cache Memory",  "Verify Read
+         After Write",  and "Landing Zone" options must be turned 
+         off (disabled).
+
+     2.  Any   time  you   change  the   "Duplicate   Directory", 
+         "Allocation  Unit  Size  (AU)",   or  "Directory   Size" 
+         parameters  in  TGSYS,  you  must  also  initialize  the 
+         affected directory or directories on the HardFile.  This 
+         is  done  with the "D" or "F" commands in the  Tallgrass 
+         program   called  UTILITY.    Since   initializing   the 
+         directory  will  cause you to lose all the data on  that 
+         volume, these options should be used with great caution.
+
+     3.  Whenever   you   change   the   "Duplicate   Directory", 
+         "Allocation   Unit  Size  (AU)",   or  "Directory  Size" 
+         parameters in TGSYS,  followed by the "D" or "F" options 
+         in UTILITY,  you must run SPCINST followed by UPCINST on 
+         all affected networked PCs.
+
+     Failure  to observe these instructions may cause the uPCs to 
+     be  unable to properly read the  Tallgrass  directory.   For 
+     example, a "DIR" command from the uPC to the sPC's Tallgrass 
+     drive  may show missing files,  extra files,  or no files at 
+     all, while the same "DIR" command entered at the sPC returns 
+     the  proper  directory  listing.   Another symptom  of  this 
+     problem is when a "CHKDSK" command issued to a shared volume 
+     returns  different  information on the uPC compared  to  the 
+     same command issued at the sPC.
+
--- a/textfiles.com/computers/ASTRESEARCH/0022.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0022.tb
@@ -0,0 +1,33 @@
+AST  RESEARCH TECHNICAL BULLETIN TB-0022                  6-18-84
+
+
+                 GAME SIGNAL LINE CONFIGURATION
+
+
+A frequently asked question is:  what are the "terms" at the DB15
+end of the game port cable,  AST part number 106525-001.   Listed
+below are the "terms" and connector pin outputs.
+
+
+                                      16 PIN
+                                   CONNECTOR AT      AST CABLE
+                                       PCB         DB15S (FEMALE)
+                   TERM               PIN #             PIN #
+
+JOYSTICK A       +5 VOLTS               1                1
+                 BUTTON 1               3                2
+                 X AXIS                 5                3
+                 GND                    7                4
+                 GND                    9                5
+                 Y AXIS                11                6
+                 BUTTON 2              13                7
+                 +5 VOLTS              15                8
+
+JOYSTICK B       +5 VOLTS               2                9
+                 BUTTON 3               4               10
+                 X AXIS                 6               11
+                 GND                    8               12
+                 Y AXIS                10               13
+                 BUTTON 4              12               14
+                 +5 VOLTS              14               15
+
--- a/textfiles.com/computers/ASTRESEARCH/0023a.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0023a.tb
@@ -0,0 +1,13 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0023A                   4-1-85
+
+
+          IBM DISPLAYWRITE SERIES COMPATIBILITY WITH PCNET
+
+
+DISPLAYWRITE  II  is compatible with PCnet and PCnet II  if  used
+with  AST  PCnet  software release  Versions  3.01A  (Maintenance
+Release) and 3.10 (Production Released).
+
+DISPLAYWRITE   III  is  NOT  currently  compatible  with PCnet or
+PCnet II Software Releases.
+
--- a/textfiles.com/computers/ASTRESEARCH/0024.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0024.tb
@@ -0,0 +1,28 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0024                   6-22-84
+
+
+             CONNECTING UDS MODEMS WITH CC432 BOARDS
+
+
+When  connecting a UDS 208A/B modem to an AST CC-432  board,  the
+following  configuration  is necessary.   Failure to do so  could
+cause the modem to oscillate DSR.
+
+     1.  Locate dipshunt U25 (see Fig. 1).
+
+     2.  Open position 3 and 6.
+
+     3.  Complete  the  regular  installation  procedure  as  per
+         instructions in the CC-432 manual.
+
+NOTE:   As a portion of the data is in pictorial form,  it is not
+included  here.   To  obtain  a complete copy of  this  technical
+bulletin, contact:
+
+               AST RESEARCH, INC.
+               2121 Alton Avenue
+               Irvine, California   92714
+
+               ATTENTION:  Product Support
+                           (Technical Bulletin)
+
--- a/textfiles.com/computers/ASTRESEARCH/0025.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0025.tb
@@ -0,0 +1,30 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0025                   7-9-84
+
+
+                 PCNET II TERMINATOR ALTERNATIVE
+
+
+At times it may be desirable to move nodes (network workstations)
+to  different locations along the trunk cable.   If a  terminated
+node  (jumper  block  T in position 2) is exchanged  for  a  non-
+terminated  node  (jumper block T in position 1) both  PCs  would
+have  to be opened to change these  jumpers.   The alternative is
+to terminate the ends of the trunk cable and leave all the  PCNet
+II  boards non-terminating.   The termination must be done at the
+two very end tap boxes using a 120 ohm resistor wired as seen  in
+figure  1.   Type  and wattage of the resistor is  not  important
+although larger wattage resistors may not fit inside the tap box.
+The  resistors  are not supplied by AST,  but are available  from
+most electronic part suppliers.
+
+NOTE:   As a portion of the data is in pictorial form,  it is not
+included  here.   To  obtain a complete copy  of  this  technical
+bulletin, contact:
+
+               AST RESEARCH, INC.
+               2121 Alton Avenue
+               Irvine, California   92714
+
+               ATTENTION:  Product Support
+                           (Technical Bulletin)
+
--- a/textfiles.com/computers/ASTRESEARCH/0026a.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0026a.tb
@@ -0,0 +1,20 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0026A                  8-20-84
+
+
+                     MONOGRAPH COMPATIBILITY
+
+
+Compatibility testing has determined that the following items are 
+plug compatible with the MonoGraphPlus:
+
+
+     1.  AMDEX 310A
+
+     2.  Leading  Edge  computer,  model MP 1673L,  with  monitor 
+         model no. 41-220-T.
+
+         Note that Leading Edge has a resident clock that  cannot 
+         be disabled.
+
+     3.  Princeton Graphics Systems (PGS) model MAX-12.
+
--- a/textfiles.com/computers/ASTRESEARCH/0027.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0027.tb
@@ -0,0 +1,18 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0027                    7-9-84
+
+
+                    ERRORS DURING IBM FORMAT
+
+
+A  format  error  can occur when using AST  SuperSpool  with  IBM 
+FORMAT or DISKCOPY.
+
+IBM  FORMAT  command  must  always  reside  in  a  64K  block  of 
+contiguous  memory,  otherwise  a format error  can  occur.   The 
+SuperSpool's  /U  command could force the FORMAT command  outside 
+the 64K boundary.
+
+If the format error occurs, vary the /U command by +/- 3K.
+
+This should clear the problem.
+
--- a/textfiles.com/computers/ASTRESEARCH/0028.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0028.tb
@@ -0,0 +1,24 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0028                   7-13-84
+
+              BASIC'S AVAILABLE MEMORY DISCREPANCY
+
+
+When using the IBM PC BASIC Interpreter,  at  initialization,  it 
+displays  the version,  release,  and copyright information.   In 
+addition  it displays the amount of memory available to the  user 
+and their program.   It is displayed as 'xxxxx Bytes free', where 
+xxxxx  is a decimal value from 0 to 65536.   BASIC is limited  to 
+64kb regardless of total memory in system.
+
+After   installing  an  AST  board  with  one  or   more   serial 
+(asynchronous) port(s),  one may notice that available memory has 
+changed.   The  reason being that when invoking Disk or  Advanced 
+BASIC,  BASIC determines if there are serial ports in the system; 
+and  if so keeps an internal driver resident for each port found.  
+This means less available memory to the user.  This driver is 436 
+bytes in length. 
+
+This data was gathered from tests using Disk and Advanced  BASIC, 
+of releases 1.10, 2.00, 2.10. Be aware that the Disk BASIC is the 
+BASIC.COM and Advanced BASIC is the BASICA.COM on your DOS disk.
+
--- a/textfiles.com/computers/ASTRESEARCH/0029.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0029.tb
@@ -0,0 +1,44 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0029                   7-16-84
+
+
+                     AST-PCNET PRINT SPOOLER
+
+
+When  using  the AST-PCnet Print Spooler on a  local  PC  (shared 
+printer  attached),   under  certain  conditions  the  SuperSpool 
+secondary control commands (/P,  /C /S, etc.) will not work.  The 
+specific conditions which cause this problem are as follows:
+
+     1.  The system  board switches are set for less memory  than 
+         is actually installed in the computer.
+
+     2.  SuperSpool  version  1.31,  is  resident in the area  of 
+         memory  located  above the setting of the  system  board 
+         switches.
+
+     3.  A  SPLLINK  version 1.00 command for local PCs has  been 
+         executed.
+
+Under these conditions,  attempting to use a SuperSpool secondary 
+command  such as "SUPERSPL /P" will result in the following error 
+mesage:
+
+     Printer Specification Required.
+     ABORTING...
+
+This is caused by the fact that SPLLINK has "stolen" SuperSpool's 
+INT 17 interrupt vector, coupled with the fact that SuperSpool is 
+unable to locate its own "footprint" in low memory.  It therefore 
+assumes  that  it  is  not resident  and  rejects  the  secondary 
+command.
+
+If  the  user`s system is configured with more  memory  than  the 
+system  switches  indicate  and he needs to  use  the  SuperSpool 
+secondary  commands,  the SuperSpool "/DH" and/or "/DNC"  options 
+should  be  used when invoking SuperSpool the first  time.   This 
+will  restrict SuperSpool to using only the memory located  below 
+the system board switches, and the problem will not occur.
+
+Note  that the problem described above does not occur if you  are 
+not using SPLLINK.
+
--- a/textfiles.com/computers/ASTRESEARCH/0030.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0030.tb
@@ -0,0 +1,27 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0030                   7-17-84
+    
+
+           DMA CHANNEL ASSIGNMENT IN THE IBM PC AND XT
+
+
+When  interfacing products to the IBM PC or XT,  which use Direct 
+Memory Access (DMA),  it is necessary to insure that there is not 
+a conflict with a device using the same channel.
+
+The following table shows the channels and their assignments.
+
+
+                                                     ADD-ON
+     CHANNEL              IBM ASSIGNMENT           ASSIGNMENT
+
+
+      DMA 0             IBM MEMORY REFRESH      NONE
+
+      DMA 1             IBM - SDLC              AST-PCOX - STD
+                                                AST-PCNET
+
+      DMA 2             IBM - FLOPPY DISK       NONE
+
+      DMA 3             IBM - HARD DISK         AST-PCOX (Alt.)
+                                                OTHER HARD DISK
+
--- a/textfiles.com/computers/ASTRESEARCH/0031.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0031.tb
@@ -0,0 +1,43 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0031                   7-17-84
+
+
+          AST MONOGRAPHPLUS TECHNICAL REFERENCE MANUAL
+
+
+In Table 4-1 that is located on page 4-2 of Technical Reference  Manual 
+(part  no.  000127-002A) there are some corrections necessary under the 
+column "Graphics Mode".   A "change page" has recently been distributed 
+to  make  corrections,  but it also contains one error  in  the  table.  
+Listed below is the corrected table.
+
+
+                Table 4-1 CRTC Internal Registers
+
+Register                           Text Mode  Graphics Mode
+ Number     Parameter          (decimal/hex)  (decimal hex)    Units
+
+  :00       Horizontal total          97/:61  56/:38         Characters
+  :01       Horizontal display        80/:50  42/:2D         Characters
+  :02       HSync position            82/:52  48/:30         Characters
+  :03       HSync width               15/:0F  08/:08         Characters
+  :04       Vertical total            25/:19  90/:5A         Rows
+  :05       Vertical adjust           06/:06  00/:00         Lines
+  :06       Vertical displayed        25/:19  87/:57         Rows
+  :07       VSync position            25/:19  87/:57         Rows
+  :08       Interlace mode            02/:02  02/:02         -----
+  :09       Maximum scan 
+            line                      13/:0D  03/:03         Lines
+            address
+  :0A       Cursor start line         11/:0B  00/:00         Lines
+  :0B       Cursor end line           12/:0C  00/:00         Lines
+  :0C       Screen start              00/:00  00/:00         -----
+            address (high)
+  :0D       Screen start              00/:00  00/:00         -----
+            address (low)
+  :0E       Cursor address            00/:00  00/:00         -----
+            (high)
+  :0F       Cursor address            00/:00  32/:20         -----
+            (low)
+  :10       Reserved                  ------  ------         -----
+  :11       Reserved                  ------  ------         -----
+
--- a/textfiles.com/computers/ASTRESEARCH/0032a.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0032a.tb
@@ -0,0 +1,64 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0032A                  4-15-85
+
+
+          5251 VERSION 2.1 INTERRUPT REQUEST SELECTION
+
+
+AST 5251 is configured to use IRQ 2.  If another system device is 
+utilizing this interrupt,  a different interrupt request line may 
+be selected.
+
+Here is a list of valid choices and their standard uses.
+
+               IRQ 2 = Reserved
+               IRQ 3 = Asynchronous Communications (secondary)
+                       SDLC Communications
+                       BSC (secondary)
+               IRQ 4 = Asynchronous Communications (primary)
+                       BSC (primary)
+               IRQ 5 = Fixed Disk (if you have the PC-XT)
+               IRQ 6 = Diskette
+               IRQ 7 = Printer
+
+To select a different interrupt,  the CC432 card and the software 
+must be reconfigured.
+
+Locate the switch bank on the CC432 board.   Switches 3 through 8 
+select the interrupt.
+
+               SW 3 = IRQ 7
+               SW 4 = IRQ 6
+               SW 5 = IRQ 5
+               SW 6 = IRQ 4
+               SW 7 = IRQ 3
+
+An ON condition selects the interrupt,  and only one IRQ position 
+may be ON at any time.
+
+To patch AST5251.EXE, it is first necessary to rename it in order 
+for DEBUG.COM to edit it.   Type in the commands in boldface on a 
+disk that has DOS, DEBUG and AST5251.EXE on it.
+
+          A>REN AST5251.EXE AST5251.tst <ENTER>
+          A>
+          A>DEBUG AST5251.tst <ENTER>
+          - e300 <ENTER>
+          - 08ff:0300    0A.XX space bar 04.ZZ <ENTER>
+          -W
+          WRITING A000 BYTES
+          -Q
+          A>
+          A>REN AST5251.tst AST5251.EXE
+          A>
+
+Where  XX and ZZ are equal to the value of the interrupt you have 
+selected.  Use the following table for correct value:
+
+          XX  ZZ
+          0A. 04 = IRQ 2
+          0B. 08 = IRQ 3
+          0C. 10 = IRQ 4
+          0D. 20 = IRQ 5
+          0E. 40 = IRQ 6
+          0F. 80 = IRQ 7
+
--- a/textfiles.com/computers/ASTRESEARCH/0033a.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0033a.tb
@@ -0,0 +1,58 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0033A                   9-4-84
+
+
+                  AST-5251 VER. 2.1 ADDRESSING
+
+
+The AST-5251 package utilizes I/O address 300 to 30F.  If another 
+peripheral board is using the same or part of this address  range 
+it will be necessary to readdress the AST-5251.
+
+To  readdress AST-5251,  the CC-432 board and AST5251.EXE must be 
+reconfigured.
+
+Locate  the switch bank (S1) on the CC-432 board.   Switches  one 
+and two select the I/O address range for the CC-432.
+
+   S1       Position        Hexidecimal          Application
+    1           2          I/O Addresses
+
+   ON          ON             300-30F          Prototype Card
+   OFF         ON             320-32F          Fixed Disk
+   ON          OFF            340-34F          Not Used
+   OFF         OFF            360-36F          Not Used
+
+To  patch AST5251.EXE it is first necessary to rename it in order 
+for DEBUG.COM to edit it.   Type in the commands in boldface on a 
+disk that has DOS, DEBUG.COM, and AST5251.EXE on it.
+
+     A>REN AST5251.EXE AST5251.TST
+     A>
+     A>DEBUG AST5251.TST
+     -e300          (sp = spacebar)
+                   sp   sp     sp   sp     sp   sp     sp
+     08FF:0300  0A.  04.  02.XX  03.  00.YY  03.  00.ZZ  03. 
+                   sp
+     08FF:0308  04.  DD
+     -w
+     Writing A000 bytes
+     -q
+     A>
+     A>REN AST5251.TST AST5251.EXE
+     A>
+
+     (*) Where XX,  YY, ZZ, and DD equal the values in table 2-1, 
+corresponding to the selected address (see below).
+
+                             TABLE 2-1
+
+     I/O ADDRESS          XX      YY      ZZ      DD
+
+      300-30F             02      00      03      04
+
+      320-32F             22      20      23      24
+
+      340-34F             42      40      43      44
+
+      360-36F             62      60      63      64 
+
--- a/textfiles.com/computers/ASTRESEARCH/0034.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0034.tb
@@ -0,0 +1,41 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0034                   7-18-84
+
+
+       HARDWARE INTERRUPT ASSIGNMENT IN THE IBM PC AND XT
+
+
+When interfacing products to the IBM PC or XT, which use hardware 
+interrupts,  it is necessary to insure their is not conflict with 
+other devices in the system utilizing the same interrupt.
+
+The  following  table  shows the hardware  interrupts  and  their 
+assignments.
+
+
+  INTERRUPT           IBM ASSIGNMENT           ADD-ON ASSIGNMENT
+
+   IRQ NMI                PARITY                    NONE
+
+   IRQ 0                  TIMER                     NONE
+
+   IRQ 1                 KEYBOARD                   NONE
+
+   IRQ 2                 RESERVED              AST-SNA, AST-BSC,
+                                               AST-3780, AST-5251
+                                               AST-PCNET
+
+   IRQ 3                  COM 2                AST COM 2, AST-SNA
+                         IBM-SDLC              AST-BSC, AST-3780,
+                    IBM-BSC  (Secondary)       AST-5251, AST-PCNET
+  
+   IRQ 4                  COM 1                AST COM 1, AST-SNA
+                         IBM-SDLC              AST-BSC, AST-3780
+                     IBM-BSC (Primary)         AST-5251, AST-PCNET
+
+   IRQ 5               IBM-HARD DISK           SAME AS IRQ 2
+
+   IRQ 6              IBM-FLOPPY DISK          AST-SNA, AST-BSC
+                                               AST-3780, AST-5251
+
+   IRQ 7                  PRINTER              SAME AS IRQ 6
+
--- a/textfiles.com/computers/ASTRESEARCH/0035.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0035.tb
@@ -0,0 +1,62 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0035                   7-25-84
+
+
+             SWITCH SETTINGS FOR THE COMPAQ PORTABLE
+
+
+Before one can reconfigure a COMPAQ (without hard disk), one must
+first determine the revision of the ROM BIOS.
+
+There  are  a  few ways to do this.   One way is to look  on  the
+motherboard  at the ROM chip,  the revision should be   indicated
+there.   The  revision is also within the ROM  chip,  located  at
+F000:FFE6, in the format 'X COMPAQ', where X is the revision.*
+
+Another  way  to determine the revision of the BIOS is  from  the
+serial number.  If the serial number is above 36792, then it is a
+Rev. C, and if it is below, then it is a Rev. B.  The COMPAQ Plus
+(with hard disk) is a Rev. C.
+
+To date, there are two revisions of BIOS in the COMPAQ portables;
+Rev. B, and Rev. C.  Revision A was preliminary and never shipped
+installed.
+
+Configuring a Revision B;
+
+     Consult your AST manual and use the switch settings for a PC-1.
+
+     All portables without hard disks and are a Rev. B, will have
+     two switch blocks.
+
+     Switch block 1 is indicated on the motherboard as 'SW1'.  It
+     is  located  in  the left rear corner  on  the  motherboard,
+     partially hidden beneath the cooling fan.
+
+     Switch block 2 is indicated on the motherboard as 'SW2'.  It
+     is located to the right and forward of switch block one.
+
+     When  configuring,  be  sure to record the  original  switch
+     settings  on  both blocks,  in case there is a  problem  you
+     won't have any trouble reconfiguring the way it was.
+
+Configuring a Revision C;
+
+     Consult your AST mnnual and use the switch setting for an XT/
+
+     A  revsion C may or may not have two switch blocks.   If you
+     have  a hard disk,  you probably have only one switch  block.
+     If in the event you have two,  or you have a COMPAQ (without
+     the hard disk),  you still use the setting for an XT.  Switch
+     block 1,  SW1,  is disabled internally and not used.  So the
+     switch block 2 is to be considered as the only switch  block
+     on the motherboard.
+
+     Switch  block  2,  the only switch block you  will  use,  is
+     located in the left rear corner of the motherboard.
+
+* This test can be accessed through BASIC or DEBUG.  Consult your
+DOS or BASIC manual on how to do this.
+
+This  information  was  acquired  from a  conversation  with  the
+Technical Support Department of COMPAQ Computer Corporation.
+
--- a/textfiles.com/computers/ASTRESEARCH/0036.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0036.tb
@@ -0,0 +1,32 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0036                   7-25-84
+
+
+                    TESTING OF THE GAME PORT
+
+
+Depending on the version and type of IBM Diagnostics used to test 
+AST multifunction boards, the game port is not always recognized.  
+If the game port option is not recognized,  or you're not able to 
+add  it to the IBM Diagnostics Table,  an alternative  method  of 
+testing is listed below.
+
+     This program requires the use of BASICA.COM
+
+
+     10 DEFINT A-Z  :  KEY OFF  :  CLS  :  STRIG ON  :  SCREEN 2
+     20 PRINT "X1","Y1","S1";"S3"
+     30 X1 = STICK(0)  :  Y1  =  STICK(1)
+     40 A  =  STRIG(0)  :  C  =  STRIG(5)
+     50 LOCATE 3  :  PRINT X1,Y1,A;C
+     60 GOTO 30
+
+
+When  running  the above program,  moving the joystick in the  X-
+plane (left-right) causes a change in the "X1" readout  displayed 
+on  monitor,  while  moving the joystick in the Y-plane  (updown) 
+causes a change in the "Y1" readout.  Pressing the switch (either 
+one  or two,  depending on your joystick) causes a change in  the 
+"S1" or "S3" readouts from 0 to -1.   Note that, depending on the 
+quality  of  your joystick,  you may not be able to  get  a  zero 
+reading in the X and Y planes when running the program.
+
--- a/textfiles.com/computers/ASTRESEARCH/0039.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0039.tb
@@ -0,0 +1,48 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0039                   7-31-84
+
+
+                MONOGRAPHPLUS WITH AMDEK MD#310A
+                    BLANK SCREEN ON POWER UP
+
+
+When  using AMDEK monitor 310A and AST MonoGraphPlus card or  IBM 
+monochrome adaptor card,  an intermittent blank screen upon power 
+up may occur.
+
+We  have  information  from AMDEK Technical Group that  a  change 
+notice  has been published to resolve this problem.   A  copy  of 
+this notice is attached for reference.
+
+It  is suggested that AMDEK Technical Support be contacted  prior 
+to modification of their product.
+
+The  following  phone  number is to be used  at  AMDEK  Inc.  for 
+support of this problem (312) 595-6890.
+
+
+AMDEK CORP.
+2201 Lively Blvd.  Elk Grove Village, Illinois 60007 TLX: 25-4786
+
+                           N O T I C E
+
+When  the 310A monitor is connected to the IBM-PC (or compatible) 
+and  the character display is generated,  a sympton can occur  in 
+which the character display cannot be seen on the monitor.   This 
+symptom  can also occur when switching modes as with  a  Hercules 
+Graphics  Card.   Should this problem occur with your monitor  we 
+recommend one of the following solutions:
+
+     SHORT TERM SOLUTION:  Be sure to always turn on the computer 
+     first, then the monitor.
+
+     LONG   TERM  SOLUTION:    Locate  resistor  R-203   on   the 
+     motherboard inside the monitor.   Disconnect or  cut one leg 
+     of the resistor from the motherboard.  (When viewed from the 
+     rear   R-203  is  at  the  top  right  hand  corner  of  the 
+     motherboard.)
+
+This  modification  of  the  310A will  not  void  the  two  year 
+warranty.  If you have questions or need additional assistance in 
+making  this  modification  please  call  our  technical  support 
+department at (312) 595-6890.
+
--- a/textfiles.com/computers/ASTRESEARCH/0040.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0040.tb
@@ -0,0 +1,20 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0040                    8-9-84
+
+
+                SIXPAK GAME PORT SCHEMATIC ERROR
+
+
+The  following changes should be made to your SixPakPlus  manual,
+part number 001177-01A0.
+
+NOTE:   As a portion of the data is in pictorial form,  it is not
+included  here.   To  obtain  a complete copy of  this  technical
+bulletin, contact:
+
+               AST RESEARCH, INC.
+               2121 Alton Avenue
+               Irvine, California   92714
+
+               ATTENTION:  Product Support
+                           (Technical Bulletin)
+
--- a/textfiles.com/computers/ASTRESEARCH/0043.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0043.tb
@@ -0,0 +1,94 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0043                   8-20-84
+
+
+            PATCHING PC DOS 2.1 FOR ADDITIONAL DRIVES
+
+
+When using SuperDrive, it may be necessary to set the motherboard
+switch  settings  to indicate more floppy disk  drives  than  one
+really has.   This may not be convenient for some, so a patch has
+been  developed  for DOS.   There is a different patch  for  each
+version of PC-DOS.   Since the patches for versions 1.10 and 2.00
+of  PC-DOS  are documented in previous manuals dating  from  July
+1983,  only  the  patch  for 2.10 of PC-DOS is included  in  this
+bulletin.
+
+
+Boot the computer with a DOS 2.10 diskette containing DEBUG.COM
+
+A>DEBUG                    <Enter>
+
+-L 100 0 D 1              For single-sided, 9-sector DOS diskette
+
+     or
+
+-L100 0 B 1               For single-sided, 8-sector DOS diskette
+
+     or
+
+-L100 0 10 1              For double-sided, 9-sector DOS diskette
+
+     or
+
+-L100 0 E 1               For double-sided, 8 sector DOS diskette
+
+-A 18A                    <Enter>
+
+XOR SI, SI                <Enter>
+
+PUSH SI                   <Enter>
+
+POP DS                    <Enter>
+
+XOR BYTE PTR [410], XX    <Enter>
+
+PUSH CS                   <Enter>
+
+PUSH CS                   <Enter>
+
+POP DS                    <Enter>
+
+POP ES                    <Enter>
+
+MOV WORD PTR [SI], 798    <Enter>
+
+POP AX                    <Enter>
+
+MOV AL, YY                <Enter>
+
+NOP                       <Enter>
+
+"NO RESPONSE"             <Enter>
+
+-W100 0 D 1   <Enter>     For single-sided, 9-sector DOS diskette
+
+    or
+
+-W100 0 B 1   <Enter>     For single-sided, 8-sector DOS diskette
+
+    or
+
+-W100 0 10 1  <Enter>     For double-sided, 9-sector DOS diskette
+
+-W100 0 E 1   <Enter>     For double-sided, 8-sector DOS diskette
+
+-Q
+
+A><Ctrl-Alt-Del>
+
+
+             SWITCHES SET FOR              SWITCHES SET FOR
+                ONE DRIVE                     TWO DRIVES
+
+             xx=40  2 drives               xx=C0   3 drives
+
+             xx=80  3 drives               xx=80   4 drives
+
+             xx=C0  4 drives
+
+             yy=02  2 drives               yy=03   3 drives
+
+             yy=03  3 drives               yy=04   4 drives
+
+             yy=04  4 drives
+
--- a/textfiles.com/computers/ASTRESEARCH/0045.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0045.tb
@@ -0,0 +1,55 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0045                   8-21-84
+
+
+        PATCHING WORDSTAR FOR PRINTING TO ALTERNATE PORTS
+
+
+WORDSTAR   can  be  configured  for  either  serial  or  parallel 
+printing,  yet it makes no provision for specifying which  serial 
+or parallel port to be used. It defaults to COM1:, and LPT1:.
+
+The patches provided below are for WORDSTAR Version 3.3, and allow 
+one to use COM2:, or LPT2: or LPT3: for printer output.
+
+Patching for COM2: use;
+
+     Install  WS.COM as you would for COM1:,  with the  necessary 
+     parameters for your printer.   Then at the DOS prompt, enter 
+     DEBUG as shown and enter the the following commands.
+
+          DEBUG WS.COM             <Return>
+          E 081E 01                <Return>
+          E 0833 01                <Return>
+          W                        <Return>
+          Q                        <Return>
+
+     WORDSTAR is then patched for COM2: use.
+
+Patching for LPT2:, or LPT3: use;
+
+     Install  WS.COM as you would for parallel printing.   At the 
+     DOS prompt,  enter DEBUG as shown and enter the commands  as 
+     shown.
+
+     For LPT2:, type;
+
+          DEBUG WS.COM             <Return>          
+          E 07D0 01                <Return>
+          E 07E6 01                <Return>
+          W                        <Return>
+          Q                        <Return>
+
+     WORDSTAR is then patched for LPT2: use.
+
+Patching for LPT2:, or LPT3: use;
+
+     For LPT3:, type;
+
+          DEBUG WS.COM             <Return>
+          E 07D0 02                <Return>
+          E 07E6 02                <Return>
+          W                        <Return>
+          Q                        <Return>
+
+     WORDSTAR is now patched for LPT3: use.
+
--- a/textfiles.com/computers/ASTRESEARCH/0046.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0046.tb
@@ -0,0 +1,38 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0046                   8-21-84
+
+
+              REBOOTING AN IBM PC FROM A BATCH FILE
+
+
+When using SUPERSPL or SUPERDRV,  a specified amount of memory is 
+extracted from system use.  The only way to return the memory for 
+system use is to reboot DOS,  because of the lack of support from 
+DOS.
+
+This may be undesirable for those who wish to operate under batch 
+files or menus.
+
+Below  is  a  procedure to  create  REBOOT.COM,  a  program  when 
+executed will reboot the machine.
+
+To create REBOOT.COM, enter the following at the DOS prompt:
+
+     DEBUG                         <Return>
+     N REBOOT.COM                  <Return>
+     A 100                         <Return>
+     MOV AX, 0040                  <Return>
+     MOV DS, AX                    <Return>
+     DS:                           <Return>
+     MOV WORD PTR [0072], 1234     <Return>
+     JMP FFFF: 0000                <Return>
+                                   <Return>
+     R CX                          <Return>
+     11                            <Return>
+     W                             <Return>
+     Q                             <Return>
+
+You now have a file called REBOOT.COM on the default disk.
+
+To reboot,  just enter the name REBOOT at the DOS prompt, or in a 
+batch file.
+
--- a/textfiles.com/computers/ASTRESEARCH/0047.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0047.tb
@@ -0,0 +1,26 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0047                   8-21-84
+
+
+       AST-PCOX VERSION 1.2 SOFTWARE WITH 4331 MODEL HOSTS
+
+
+AST-PCOX Version 1.1, the current released version, will not work 
+with   some  of  the  4331  model  hosts  of  which   there   are 
+approximately  5300  installed  (7th  overall in  the  number  of 
+installed  hosts).   To  remedy this condition,  AST  has  a  new 
+version of the software,  manual, and two new proms to be shipped 
+to customers having either of the following hosts with integrated 
+channel  adapter or devices:   a 4331 host,  a 4321 host,  a 4361 
+host  or  a 3299 MUX.   This package will  be  available  through 
+shipping and will be approved by the Technical Support Department 
+prior to shipping.
+
+Summary:   Use  AST-PCOX Version 1.2 software with 1.3 proms  and 
+new manuals for:
+
+
+               4331 host
+               4321 host
+               4361 host
+          or a 3299 MUX.
+
--- a/textfiles.com/computers/ASTRESEARCH/0049a.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0049a.tb
@@ -0,0 +1,63 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0049A                   4-1-85
+
+
+                 SLOW PRINTING WITH SUPERSPOOL
+               AND CERTAIN SOFTWARE APPLICATION
+
+
+Certain  software application,  like Lotus 1-2-3,  sends  control
+characters to LPT1 upon initialization.  These control characters
+interfere  with  the automatic timing calibration of  SuperSpool.
+This  could result in slow character printing and or a  delay  at
+the end of each printed line.
+
+This  condition can be remedied by sending a burst of twenty-five
+characters  (blank  spaces,  in this instance,  may be  the  best
+characters to use) to LPT1 after invoking SuperSpool but prior to
+initializing the software application.
+
+The  following  procedure outlines the steps in creating  a  data
+file named DUMMY.DAT and installing it in the AUTOEXEC.BAT  file.
+This   should  eliminate  the  slow  character  printing   and/or
+hesitation after each printed line.
+
+Step #1:     First we need to create a data file named  DUMMY.DAT
+             consisting of 25 blank spaces.
+
+             COPY CON:DUMMY.DAT          <CR>
+             Press space bar 25 times    <CR>
+             Press F6
+
+(Response)   ^ Z
+
+(Response)   1 File(s) copied
+
+             1 File(s) copied means you have successfully created
+             DUMMY.DAT.
+
+Step #2:     Now that DUMMY.DAT has been created,  the  next step
+             is to assign it to LPT1.   This sends  a burst of 25
+             characters to LPT1.
+
+             COPY DUMMY.DAT LPT1:        <CR>
+
+Step #3:     Once Step #2 has been  executed, the  command  "COPY
+             DUMMY.DAT LPT1:"   can   be   installed   in   the
+             AUTOEXEC.BAT file.  This command should be installed
+             after  SuperSpool  but  prior  to  initializing  the
+             software application.
+
+             The  example  below  is  the  simplest  form  of the
+             AUTOEXEC.BAT file:
+
+
+BEFORE                              AFTER
+
+1st Line --> ASTCLOCK               1st Line ASTCLOCK
+2nd Line --> SUPERSPOOL LPT1:       2nd Line SUPERSPOOL LPT1:
+3rd Line --> Software Application   3rd Line COPY DUMMY.DAT LPT1:
+                                    4th Line Software Application
+
+Step #4:     Now all that is required is to reboot the system and
+             you are ready to go.
+
--- a/textfiles.com/computers/ASTRESEARCH/0050.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0050.tb
@@ -0,0 +1,23 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0050                  10-24-84
+
+
+             DIAGNOSTIC TESTING OF THE PARALLEL PORT
+
+
+In order to perform a thorough test of AST's parallel port  (when
+running IBM diagnostics) you need to provide the incoming signals
+to  the  port.   This may be accomplished by constructing a  wrap
+plug  and  installing  it on the  parallel  port  connector.   To
+construct  a wrap plug use a DB25 male  connector.   Utilizing  a
+minimum of 30AWG wire make connections as listed below:
+
+          1  >  13
+
+          2  >  15
+
+         10  >  16
+
+         11  >  17
+
+         12  >  14
+
--- a/textfiles.com/computers/ASTRESEARCH/0051.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0051.tb
@@ -0,0 +1,26 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0051                   10-5-84
+
+
+         FRAMEWORK AND AST NEWLINE FOR THE MONOGRAPHPLUS
+
+
+MonoGraphPlus  NEWLINE  software and FRAMEWORK software  are  not 
+compatible.
+
+When  NEWLINE  software  is used with  FRAMEWORK,  the  following 
+attributes occur on the screen.  (See diagram below).
+
+
+
+     -  -  +  -  +  -  +  -  +  -  +  -  +  -  +  -  +  -  +  -
+     -  +  +  -  +  -  +  -  +  -  +  -  +  -  +  -  +  -  +  -
+
+
+This  problem occurs with version 1.01 and below of  AST  NEWLINE 
+software, and 1.0 version of FRAMEWORK.
+
+A  fix  is  not scheduled at this time.   It is  rcommended  that 
+NEWLINE not be used with FRAMEWORK software.
+
+TM - FRAMEWORK is a product of Ashton Tate Inc.
+
--- a/textfiles.com/computers/ASTRESEARCH/0052a.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0052a.tb
@@ -0,0 +1,34 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0052A                  11-8-84
+
+
+                         CLOCK/CALENDAR
+                         I/O ADDRESSING 
+
+
+This Technical Bulletin contains information about the AST  clock 
+addressing.
+
+The   information  supplied  is  to  aid  one  in  avoiding   and 
+recognizing  address conflicts within a PC.   The products listed 
+below  contain  an AST clock.   Note the  two  different  address 
+ranges.   The  address range 2C0 thru 2C7 will operate in the IBM 
+3270 as well as in the IBM PC1,  PC2,  and XT.  The address range 
+2C0 thru 2DF will not operate in an IBM 3270.
+
+     PRODUCT                            I/O ADDRESS RANGE
+
+  ** SIXPAKPLUS - P/N 03-01177-01            2C0-2DF
+     DISKPLUS                                2C0-2DF
+     COMBOPLUS                               2C0-2DF
+     MEGAPLUS                                2C0-2DF
+     I/O PLUS                                2C0-2DF
+
+     MONOGRAPHPLUS                         * 2C0-2C7
+     MP II                                 * 2C0-2C7
+  ** SIXPAKPLUS - P/N 201177               * 2C0-2C7
+
+
+ * Compatible with the 3270 PC.
+** Part  number is  marked on the component side of the board  on 
+   the opposite edge from the mounting bracket.
+
--- a/textfiles.com/computers/ASTRESEARCH/0053a.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0053a.tb
@@ -0,0 +1,39 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0053A                  11-8-84
+
+
+           CORRECTING THE TIME/DATE OF THE AST CLOCK*
+
+
+SYMPTON:       It  appears the clock is set correctly because the 
+               time and date remain correct while the machine  is 
+               on.   However,  after  rebooting or turning  power 
+               back  on  to your PC,  the time  and/or  date  are 
+               incorrect.  This symptom may be an indication that 
+               the ASTCLOCK has not been set.
+
+EXPLANATION:   The ASTCLOCK is accessed only at power up or  upon 
+               rebooting.  The time and date remain correct while 
+               there  is  power  to the machine because  you  are 
+               utilizing the system clock.
+
+PROBLEM:       If  the  ASTCLOCK  utility is  executed  prior  to 
+               running the SETCLOCK utility, it may be preventing 
+               the correction of the time/date in the AST clock.
+
+SOLUTION 1:    Temporarily remove the ASTCLOCK utility from  your 
+               AUTOEXEC.BAT  file.   Reboot the machine.   Follow 
+               the  procedure in your manual for setting the  AST 
+               clock.   Restore  your  AUTOEXEC.BAT file  to  its 
+               original configuration by inserting ASTCLOCK.
+
+SOLUTION 2:    Interrupt   your   AUTOEXEC.BAT   file   prior  to 
+               execution   of   ASTCLOCK  using   the   CONTROL-C 
+               function.  Follow the procedure in your manual for 
+               setting the AST clock.
+
+
+
+*  Applies  only  to those products which  use  the  SETCLOCK.COM 
+   utility.   Those  which use the ASTCLOCK.COM utility are reset 
+   with  the  /R  parameter  as described  in  the  User  Manual.              
+
--- a/textfiles.com/computers/ASTRESEARCH/0055.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0055.tb
@@ -0,0 +1,214 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0055                   9-21-84
+
+
+                 FAULT ISOLATION OF THE IBM PC-1
+         USING THE POWER ON SELF TEST (POST) DIAGNOSTICS
+
+
+Each time the IBM PC-1 (64K motherboard) is powered on,  the  ROM
+BIOS  initiates  a built-in set of diagnostic tests to  determine
+the functionality of the hardware.
+
+These  tests  are also performed (with the exception of  the  RAM
+test) each time a "warm boot" is initiated (Ctrl-Alt-Del).
+
+Failures  to  the  diagnostic tests can be  caused  by  component
+failures on the system motherboard, errors in switch settings, or
+a defective expansion board.   These failures are indicated by  a
+sequence of beeps, error codes on the CRT display or both.
+
+The  attached tables present the tests in the order in which they
+are performed.   Thus,  if an error is detected,  fault isolation
+can  be  accomplished as the tests above the  failure  have  been
+completed successfully.
+
+Table  1 is applicable to an IBM PC-1,  which is NOT fitted  with
+either a "bootable" harddisk or an IBM Expansion Chassis.
+
+Table 2 is applicable to an IBM PC-1, which is fitted with either
+a "bootable" harddisk or an IBM Expansion Chassis.
+
+
+
+                             TABLE 1
+
+           POST ERRORS FOR IBM PC-1 WITHOUT EITHER AN
+          IBM EXPANSION CHASSIS OR A BOOTABLE HARDDISK
+
+    SYMPTOM                        CAUSE
+
+1.  System does not respond        The   power  supply  has  shut
+    at all when turned on.         down,
+                                   OR:
+                                   The  8088  has  HALTed  due to:
+                                     -  Internal 8088 problem.
+                                     -  BIOS ROM checksum error.
+                                     -  8253 timer problem.
+                                     -  8237 DMA controller error.
+                                     -  Error in last 16K of RAM.
+
+                                   Note:  Try   turning off power
+                                          supply, waiting 5 seconds,
+                                          then turning it on.
+
+2.  System beeps:                  The 8088 has HALTed due to:
+    1 long beep (3 seconds),         -  8259  interrupt  controller
+    1 short beep (1 second),            error.
+    then stops.                      -  8253  timer   counting  too
+                                        fast or slow.
+
+3.  System beeps:                  Checksum error in a BASIC ROM.
+    1 long beep (3 seconds),
+    1 short beep (1 second),
+    but continues the power-
+    up sequence.
+
+4.  System beeps:                  Error in  video  RAM or error in
+    1 long beep (3 seconds),       6845 video circuitry.
+    2 short beeps (1 second
+    each), continues power-
+    up sequence.
+
+5.  System beeps:                  The display card is probably not
+    1 long beep (3 seconds),       installed.
+    2 short beeps (1 second),
+    1 long beep (3 seconds),
+    2 short beeps (1 second
+    each).
+
+6.  'XXYY 201' appears at the      RAM error.  XX = the high order
+    top of the display, where      byte of the  failing  segment,
+    XXYY = four hexadecimal        e.g.; XX = 20  would  indicate
+    digits.                        that the error occurred between
+                                   segment 2000 and segment 2400.
+                                   (Memory  is  tested  in  16K
+                                   blocks, each 64K increments the
+                                   segment by 1000.  YY = the
+                                   failing bit pattern, which can
+                                   isolate the specific RAM.)
+
+7.  'XX 301' appears at the        Keyboard error. Usually a stuck
+    top of the display, where      key,  where  XX = scan code of
+    XX = two hexadecimal digits.   the stuck key.
+
+8.  '131' appears on display.      Cassette port error.
+
+9.  '601' appears on display.      Disk  drive A, or disk adapter
+                                   error.
+
+10. 'PARITY CHECK 1' appears.      A RAM parity error has occurred
+                                   on the system motherboard.  The
+                                   INT 2 routine in the BIOS gains
+                                   control and HALTs the 8088 when
+                                   a memory parity  error occurs.
+                                   Parity   checking   had   been
+                                   DISABLED prior to this point in
+                                   the  test sequence, and is en-
+                                   abled here just before reading
+                                   the boot record from the disk.
+
+11. 'PARITY CHECK 2' appears       A RAM parity error has occurred
+    on the display.                on an add-on memory board. This
+                                   message  comes  from the  BIOS
+                                   ROM's INT 2 routine, which then
+                                   HALTs the 8088.
+
+12. System beeps:                  This is normal  system reponse
+    1 short beep (1 second).       just  before the  system boots
+                                   from the disk.  The system has
+                                   successfully passed the diag-
+                                   nostics.
+
+
+
+                             TABLE 2
+
+               POST ERRORS FOR IBM PC-1 WITH AN IBM
+             EXPANSION CHASSIS OR A BOOTABLE HARDDISK
+
+
+    SYMPTOM                        CAUSE
+
+1.  System does not respond        The power supply has shut down,
+    at all when turned on.         OR:
+                                   The 8088 has HALTed due to:
+                                     -  Internal 8088 problem.
+                                     -  BIOS ROM checksum error.
+                                     -  8253 timer problem.
+                                     -  8237 DMA controller error.
+                                     -  Error in last 16K of RAM.
+
+                                   Note:  Try  turning  off power
+                                          supply,  waiting 5 sec-
+                                          onds then turning it on.
+
+2.  System beeps:                  The 8088 has HALTed due to:
+    1 long beep (3 seconds),         -  8259 interrupt controller
+    1 short beep (1 second),            error.
+    then stops.                      -  8253  timer  counting too
+                                        fast or slow.
+
+3.  System beeps:                  Error in video RAM or error in
+    1 long beep (3 seconds),       6845 video circuitry.
+    2 short beeps (1 second
+    each), continues power-
+    up sequence.
+
+4.  '1801' appears at the top      Error in expansion unit inter-
+    of display.  (If IBM Expan-    face.
+    sion Unit is installed).
+
+5.  'XXYY 201' appears at the      RAM  error.     XX = the  high
+    top of the display, where      order byte of the failing seg-
+    XXYY = four hexadecimal        ment, e.g.;  XX = 20 would in-
+    digits.                        dicate that the error occurred
+                                   between segment  2000 and seg-
+                                   ment 2400.   (Memory is tested
+                                   in 16K blocks; each 64K incre-
+                                   ments  the  segment  by  1000.
+                                   YY =  the failing bit pattern,
+                                   which can isolate the specific
+                                   RAM).
+
+6.  'XX 301' appears at the        Keyboard  error;    usually  a
+    top of the display, where      stuck key, where XX = the scan
+    XXYY = four hexidecimal        code of the stuck key.
+    digits.
+
+7.  '131' appears on the display.  Cassette port error.
+
+8.  '1701' appears on the          IBM Fixed Disk error.
+    display.
+
+9.  System beeps;                  Checksum error in BASIC ROM.
+    1 long beep (3 seconds),
+    2 short beeps (1 second
+    each), and 'ROM' appears
+    on the display.
+
+10. '601' appears on display.      Disk drive A, or disk adapter.
+
+11. 'PARITY CHECK 1' appears.      A RAM  parity error has occur-
+                                   red on the system motherboard.
+                                   The INT 2 routine in the  BIOS
+                                   gains  control and  HALTs  the
+                                   8088  when  a  memory   parity
+                                   error occurs.  Parity checking
+                                   had been DISABLED prior to this
+                                   point in the test sequence, and
+                                   is  enabled  here  just  before
+                                   reading  the  boot record  from
+                                   the disk.
+
+12. 'PARITY CHECK 2' appears       A RAM parity error has occurred
+    on the display.                on an add-on memory board. This
+                                   message  comes  from  the  BIOS
+                                   ROM's INT routine,  which  then
+                                   HALTS the 8088.
+
+13. System beeps:                  This is normal system response
+    1 short beep (1 second).       just  before the system  boots
+                                   from the disk.  The system has
+                                   successfully  passed the diag-
+                                   nostics.
+
--- a/textfiles.com/computers/ASTRESEARCH/0059.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0059.tb
@@ -0,0 +1,28 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0059                   9-26-84
+
+
+              MONOGRAPH COMPATIBILITY WITH MS WORD    
+
+
+Located  in position U38 of the MonoGraph card is a  programmable 
+CRT controller device.   The CRT controller generates the signals 
+necessary  to  interface  a digital system to a raster  scan  CRT 
+display.
+
+MICROSOFT  Corporation  currently  has a  word  processor  called 
+"WORD".   Due to the parameters utilized to program the registers 
+of  the CRT controller,  this particular program (WORD)  requires 
+that an enhanced version of the CRT controller be  present.   The 
+symptom  of  not having an enhanced version of this chip is  that 
+the display goes into a vertical roll.
+
+Listed  below  are  CRT controller devices that  will  allow  the 
+"WORD" to operate properly.
+
+
+                VENDOR                   NUMBER
+
+                FAIRCHILD                F68B45AP
+                HITACHI                  HD68B45SP
+                SYNERTEK                 SYP6845A
+
--- a/textfiles.com/computers/ASTRESEARCH/0061.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0061.tb
@@ -0,0 +1,14 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0061                   10-5-84
+
+
+           ASTCLOCK AND COMPAQ VERSION 2.11 CONTENTION
+
+
+When  using ASTCLOCK with COMPAQ's MS-DOS Version 2.11,  the year 
+will  be  incremented  by one if the month is set  with  a  value 
+greater than nine.
+
+There are two solutions to this problem.     A)  Use PC-DOS or B)  
+Don't  use  ASTCLOCK.   This  should  not be  a  problem  because 
+COMPAQ's MS-DOS Version 2.11 will access our clock directly.
+
--- a/textfiles.com/computers/ASTRESEARCH/0062.tb
+++ b/textfiles.com/computers/ASTRESEARCH/0062.tb
@@ -0,0 +1,28 @@
+AST RESEARCH TECHNICAL BULLETIN TB-0062                   10-9-84
+
+
+                       SUPERSPOOL AND LPT2
+
+
+To  use  SUPERSPOOL in conjunction with a second parallel  device 
+(LPT2) follow this procedure:
+
+     1)  Initially  set SUPERSPOOL up at LPT1 at which  time  all 
+         parameters should be installed.
+
+     2)  Next,  move  SUPERSPOOL to LPT2 by  typing  in  SUPERSPL 
+         LPT2:.
+
+     3)  Now  redirect  printer  output to  LPT2.   This  may  be 
+         accomplished  by  running LPTSWAP.BAT (refer  to  User's 
+         Manual appendix "Switching Between LPT1 and LPT2").
+
+     4)  Finally,  move  SUPERSPOOL  back to LPT1  by  typing  in 
+         SUPERSPL LPT1:.  Printer output will now spool out LPT2.
+
+         Note:  Install parameters only in the initial set up.
+                Make sure SUPERSPOOL is initially set up at LPT1.
+
+                When  you are ready to use LPT1 again repeat  the 
+                above process.
+
--- a/Show More
+++ b/Show More